Andre Luiten

Prof Andre Luiten

Institute of Photonics and Advanced Sensing Chief Innovator

School of Physics, Chemistry and Earth Sciences

College of Sciences

Eligible to supervise Masters and PhD - email supervisor to discuss availability.

Prof Luiten is the Chair of Experimental Physics at the University of Adelaide and also a Fellow of both the Australian Institute of Physics and the Australian Academy of Technology and Engineering. Prof Luiten obtained his PhD in Physics from the University of Western Australia in 1997, for which he was awarded the Bragg Gold Medal. He has subsequently held three prestigious Fellowships from the ARC. For his early efforts, Andre was the joint inaugural winner of the WA Premier’s Prize for Early Career Achievement in Science.Andre came to the University of Adelaide in 2013 to take up the Chair of Experimental Physics and a $1M South Australian Research Fellowship from the Premier’s Research and Innovation Fund. He has authored 144 journal papers (with over 6,355 citations – h-index 39), edited a book, published 7 book chapters as well as over 110 conference papers, and has raised over $50M for research. In 2014, Andre was appointed Director of the Institute of Photonics and Advanced Science – a multi-disciplinary entity with more than 220 researchers. After 10 years of leadership, IPAS delivered an 8-fold increase in high impact publications (from 8 p.a. to 66 p.a.), a tripling of income ($7M to $22M pa) and a 4-fold increase in the fraction of income connected to industry investments (15% to 65%). Over its life, IPAS has won $170M of research funding. In March 2024, Andre transitioned to take on a newly created role as the IPAS Chief Innovator to allow focus on research, research innovation and support for research commercialisation.Prof Luiten’s work is aimed at the development of state-of-the-art instruments across many diverse fields of physics. The excellence of his research has been recognised by the Barry Inglis Medal Award from the National Measurement Institute in 2017, the Australian Institute of Physics’ Alan Walsh Medal for Service to Industry, the prestigious 2018 Eureka Prize for Outstanding Science in safeguarding Australia and was awarded the 2022 South Australian Innovator of the Year by the South Australian Government. Recently Andre was awarded the 2023 National Measurement Impact Award from the National Measurement Institute as well as the 2023 John Love Award from ANZOS (as leader of a research team). In one of his proudest achievements, Andre is the co-founder and Managing Director of QuantX Labs Pty Ltd. QuantX Labs was named the Best New Small Company in Defence at the 2019 Avalon Awards and more recently the 2023 Defence Small-to-Medium-Enterprise of the Year at the Australian Defence Industry Awards. This company, built on Andre’s innovative research, has been profitable from its first day and now employs 32 people, including 10 researchers, to deliver innovations into the real world. It will do more than $7.5M of business this year.

 

 

Precision Measurement

For detailed information, please see our website.

A defining feature of our technological society is a hunger for more accurate measurement and sensing. An ever-increasing capability in this field is demanded by the need to push more information through existing communication channels, make smaller features on chips to deliver more computing power in less space, and deliver revolutionary new technologies such as the Global Positioning System (GPS) or Magnetic Resonance Imaging (MRI).

This quest for ever-better measurement is also found at the heart of physics where it is perhaps the central strand of the field: many of the greatest discoveries in physics arose from measurements of important quantities to high accuracy.

The Precision Measurements Group (PMG) aims to build instruments that can make measurements with world-class precision and accuracy. We are interested in measurements that are of high value and interest to fundamental physics as well as in industrial, biological and defence contexts.

Time (or equivalently frequency) is the most precisely measurable quantity of all. For example, modern atomic clocks can deliver long-term precision of just parts in 10(^18) – corresponding to a time error of less than a second over the lifetime of the Universe. This performance is the culmination of a 10 million-fold improvement over the last 70 years.

Using various sensors it is possible to translate many other physical parameters into a frequency and hence use the power and precision of frequency measurement protocols in many other fields.

Although this approach may seem rather esoteric it turns out that many modern key devices in modern society are based on high-quality clocks, lasers and oscillators: the Global Positioning System (GPS) satellite system, magnetic resonance imaging, radar, optical fibre communications, even mobile phones.

Date Position Institution name
2024 - ongoing IPAS Chief Innovator University of Adelaide
2014 - 2024 Director, Institute for Photonics and Advanced Sensing (IPAS) University of Adelaide
2013 - ongoing Chair of Experimental Physics, School of Physical Sciences University of Adelaide
2013 - ongoing South Australian Research Fellow South Australian State Government
2011 - 2013 Winthrop Professor University of Western Australia
2010 - 2013 ARC Future Fellow University of Western Australia
2009 - 2011 Professor University of Western Australia
2002 - 2009 Associate Professor University of Western Australia
2000 - 2004 ARC Australian Research Fellow University of Western Australia
1997 - 1999 ARC Postdoctoral Fellow University of Western Australia
1996 - 1996 International Visiting Fellow Instituto Nationale de Fisica Nuclear, Paris

Date Type Title Institution Name Country Amount
2023 Award National Measurement Impact Award National Measurement Institute Australia -
2023 Award Small to Medium Enterprise of the Year (QuantX Labs) Australian Defence Industry Awards Australia -
2023 Award Finalist, Defence, Dual-Use Tech & Space Award (QuantX Labs) InnovationAus Awards for Excellence Australia -
2023 Award The University Awards for Outstanding Achievement - The Portable Clock team University of Adelaide Australia -
2022 Award Peter Domachuk Memorial Lecturer University of Sydney Australia -
2022 Award SA Innovator of the Year SA Science Excellence Awards Australia -
2020 Award Elected Fellow of Australian Academy of Technology and Engineering ATSE Australia -
2019 Award Best new Small to Medium Enterprise Company in Defence Innovation Avalon Innovation Awards Australia -
2018 Award Alan Walsh Medal for Service to Industry Australian Institute of Physics Aruba -
2018 Award Eureka Prize for Outstanding Science in Safeguarding Australia Australian Museum/DSTG Australia 10000
2017 Award Barry Inglis Medal Australian National Measurement Institute Australia -
2012 Award US Department of Commerce Bronze Medal US Department of Commerce Bronze Medal United States -
2002 Award Inaugural Premier's Prize for Early Career Achievement in Science Premier's Department, Government of Western Australia - -
2001 Award Commendation for Honours supervision University for Western Australia - -
2000 Award Young Scientist Award in Radio-Science Union Radio-Scientifique Internationale France -
1997 Award Bragg Medal for best Physics PhD thesis in Australia Australian Institute of Physics - -
1996 Award Outstanding Distinction for PhD Thesis University of Western Australia - -

Date Institution name Country Title
1991 - 1996 University of Western Australia Australia PhD
1990 - 1990 University of Western Australia Australia BSc (Hons)
1987 - 1989 University of Western Australia Australia BSc

Year Citation
2026 Fortier, T. M., Luiten, A. N., & Margolis, H. S. (2026). Optical atomic clocks: defining the future of time and frequency metrology. Optica, 13(1), 143.
DOI
2025 Ahern, E. J., Scholten, S. K., Locke, C., Hébert, N. B., White, B., Luiten, A. N., & Perrella, C. (2025). Tailoring the stability of a two-color, two-photon rubidium frequency standard. Physical Review Applied, 23(4), 044025-1-044025-14.
DOI Scopus5 WoS4
2025 Rowland, J. A., Perrella, C., Offer, R. F., Luiten, A. N., Sparkes, B. M., & Weinhold, T. J. (2025). Characterization of near-infrared to telecom frequency conversion in a rubidium-filled hollow-core photonic-crystal fiber. Optics Express, 33(8), 18076-18088.
DOI Scopus2 WoS3
2025 Hilton, A. P., Offer, R. F., Klantsataya, E., Scholten, S. K., Bourbeau Hébert, N., Billington, C. J., . . . Luiten, A. N. (2025). Demonstration of a mobile optical clock ensemble at sea. Nature Communications, 16(1), 11 pages.
DOI Scopus4 WoS5 Europe PMC2
2025 Anonymous. (2025). Characterizing the complete thermodynamic state of a gas using a frequency comb spectrometer. Physical Review Applied, 24(1), 014037-1-014037-11.
DOI Scopus1 WoS1
2025 Sun, S., Guo, H., Luiten, A. N., & Weng, W. (2025). Photonic electrometry using a piezoelectric Pockels microresonator. Physical Review Applied, 24(4), 044001-1-044001-11.
DOI
2025 Cochrane, M., Scholten, S., Perrella, C., van der Hengel, A., Dholakia, K., Luiten, A., . . . Verjans, J. (2025). CO₂ Isotopologue Quantification Using Direct Frequency Comb Spectroscopy and Machine Learning. ACS Omega, 10(43), 51443-51454.
DOI
2024 Weng, W., Light, P., & Luiten, A. N. (2024). Low-noise laser frequency locking with a directly modulated microresonator. Physical Review Applied, 22(4), 044056-1-044056-9.
DOI Scopus1 WoS1
2024 Weng, W., & Luiten, A. N. (2024). Ultraprecision photonic thermometry with nonadiabatically modulated coupled resonances. Optica, 11(8), 1146-1155.
DOI Scopus4 WoS4
2024 Rowland, J., Perrella, C., Luiten, A. N., Gartman, R., Kaczmarek, K. T., Nunn, J., & Sparkes, B. M. (2024). High-bandwidth warm-atom quantum memory using hollow-core photonic crystal fibers. Physical Review Applied, 21(1), 9 pages.
DOI Scopus6 WoS6
2024 Whitaker-Lockwood, J. A., Scholten, S. K., Karim, F., Luiten, A. N., & Perrella, C. (2024). Comb spectroscopy of CO₂ produced from microbial metabolism. Biomedical Optics Express, 15(3), 1553-1-1553-18.
DOI Scopus4 WoS4 Europe PMC2
2024 Karim, F., Scholten, S. K., Perrella, C., & Luiten, A. N. (2024). Rapid generation of massive thermodynamic datasets using frequency comb spectroscopy. Journal of Chemical Physics, 160(10), 104304-1-104304-15.
DOI Scopus2 WoS2
2023 Weng, W., Kaszubowska-Anandarajah, A., Anandarajah, P. M., & Luiten, A. N. (2023). Microresonator-based spectral translation of a gain-switched semiconductor laser comb. Optics Letters, 48(9), 2309-2312.
DOI Scopus3 WoS2
2023 Hamilton, R., Roberts, B. M., Scholten, S. K., Locke, C., Luiten, A. N., Ginges, J. S. M., & Perrella, C. (2023). Experimental and Theoretical Study of Dynamic Polarizabilities in the 5S1/2–5D5/2 Clock Transition in Rubidium-87 and Determination of Electric Dipole Matrix Elements. Physical Review Applied, 19(5), 054059-1-054059-10.
DOI Scopus7 WoS6
2023 Strathearn, A., Offer, R. F., Hilton, A. P., Klantsataya, E., Luiten, A. N., Anderson, R. P., . . . Stace, T. M. (2023). Wave-front curvature in optical atomic beam clocks. Physical Review A, 108(1), 013105-1-013105-12.
DOI Scopus4 WoS4
2023 Hunter, D., Perrella, C., McWilliam, A., McGilligan, J. P., Mrozowski, M., Ingleby, S. J., . . . Riis, E. (2023). Free-induction-decay magnetic field imaging with a microfabricated Cs vapor cell. Optics Express, 31(20), 33582.
DOI Scopus12 Europe PMC1
2022 Li, R., Perrella, C., & Luiten, A. (2022). Repumping atomic media for an enhanced sensitivity atomic magnetometer. Optics Express, 30(18), 31752-31765.
DOI Scopus15 WoS15 Europe PMC4
2022 Li, R., Perrella, C., & Luiten, A. (2022). Enhancing the sensitivity of atomic magnetometer with a multi-passed probe light. Applied Physics Letters, 121(17), 172402.
DOI Scopus8 WoS7
2022 Chetty, D., Glover, R. D., Tong, X. M., deHarak, B. A., Xu, H., Haram, N., . . . Sang, R. T. (2022). Carrier-Envelope Phase-Dependent Strong-Field Excitation. Physical Review Letters, 128(17), 6 pages.
DOI Scopus12 WoS15 Europe PMC3
2021 Bourbeau Hebert, N., Scholten, S., Hilton, A., Offer, R., Perrella, C., & Luiten, A. (2021). Orthogonalizing the control of frequency combs for optical clockworks. Optics Letters, 46(19), 4972-4975.
DOI Scopus4 WoS4 Europe PMC2
2021 Sun, X., Rickard, W. D. A., Sparkes, B. M., White, B. R., Offer, R. F., Luiten, A. N., & Ironside, C. N. (2021). Rapid prototyping of grating magneto-optical traps using a focused ion beam. Optics Express, 29(23), 37733-1-37733-14.
DOI Scopus4 WoS2
2021 Rowland, J., Perrella, C., Light, P., Sparkes, B. M., & Luiten, A. N. (2021). Using an injection-locked VCSEL to produce Fourier-transform-limited optical pulses. Optics Letters, 46(2), 412-415.
DOI Scopus4 WoS4
2021 Liu, J., Stace, T., Dai, J., Xu, K., Luiten, A., & Baynes, F. (2021). Resonant stimulated photorefractive scattering. Physical Review Letters, 127(3), 033902-1-033902-6.
DOI Scopus5 WoS5 Europe PMC1
2020 Karim, F., Scholten, S. K., Perrella, C., & Luiten, A. N. (2020). Ultrahigh-resolution direct-frequency-comb spectrometer. Physical Review Applied, 14(2), 024087-1-024087-8.
DOI Scopus12 WoS11
2020 Li, R., Baynes, F. N., Luiten, A. N., & Perrella, C. (2020). Continuous High-Sensitivity and High-Bandwidth Atomic Magnetometer. Physical Review Applied, 14(6), 1-10.
DOI Scopus67 WoS64
2020 Hedger, J. P., Elsmann, T., Becker, M., Tiess, T., Luiten, A. N., & Sparkes, B. M. (2020). High performance fiber-Fabry-Perot resonator targeting quantum optics applications. IEEE Photonics Technology Letters, 32(14), 879-882.
DOI Scopus10 WoS9
2020 Bourbeau Hebert, N., Hilton, A. P., Light, P. S., & Luiten, A. N. (2020). Hertz-level frequency comparisons between diverse color lasers without a frequency comb. Optics Letters, 45(15), 4196-4199.
DOI Scopus6 WoS5
2020 Hilton, A. P., Light, P. S., Talbot, L., & Luiten, A. N. (2020). Optimal design for spectral narrowing and fast frequency sweep of an interferometer-stabilized laser. Optics Letters, 45(1), 45-48.
DOI Scopus8 WoS7
2020 Chetty, D., Glover, R. D., deHarak, B. A., Tong, X. -M., Xu, H., Pauly, T., . . . Sang, R. T. (2020). Observation of dynamic Stark resonances in strong-field excitation. Physical Review A, 101(5), 053402-1-053402-6.
DOI Scopus25 WoS27
2020 Wilson, N., Perrella, C., Anderson, R., Luiten, A., & Light, P. (2020). Wide-bandwidth atomic magnetometry via instantaneous-phase retrieval. Physical Review Research, 2(1), 013213-1-013213-9.
DOI Scopus34 WoS28
2020 Hilton, A. P., Luiten, A. N., & Light, P. S. (2020). Light-shift spectroscopy of optically trapped atomic ensembles. New Journal of Physics, 22(3), 033042-1-033042-10.
DOI Scopus3 WoS3
2019 Hilton, A. P., Perrella, C., Luiten, A. N., & Light, P. S. (2019). Dual-color magic-wavelength trap for suppression of light shifts in atoms. Physical Review Applied, 11(2), 1-7.
DOI Scopus9 WoS9
2019 Wilson, N., Light, P., Luiten, A., & Perrella, C. (2019). Ultrastable Optical Magnetometry. Physical Review Applied, 11(4), 9 pages.
DOI Scopus29 WoS29
2019 Griesser, H. P., Perrella, C., Light, P. S., & Luiten, A. N. (2019). Spectral broadening of a single-photon transition in the evanescent field of an exposed-core fiber. Physical Review Applied, 11(5), 1-8.
DOI Scopus3 WoS3
2019 Scholten, S., Perrella, C., Anstie, J., White, R., & Luiten, A. (2019). Accurate optical number density measurement of ¹²CO₂ and ¹³CO₂ with direct frequency comb spectroscopy. Physical Review Applied, 12(3), 034045-1-034045-6.
DOI Scopus10 WoS11
2019 Perrella, C., Light, P. S., Anstie, J. D., Baynes, F. N., White, R. T., & Luiten, A. N. (2019). Dichroic two-photon rubidium frequency standard. Physical Review Applied, 12(5), 054063-1-054063-6.
DOI Scopus35 WoS31
2019 Mik, J. L., Sparkes, B., Perrella, C., Light, P., Ng, S., Luiten, A., & Ottaway, D. (2019). High-transmission fiber ring resonator for spectral filtering of master oscillator power amplifiers. OSA Continuum, 2(8), 2487-2495.
DOI Scopus4 WoS4
2018 Wilson, N., Hébert, N., Perrella, C., Light, P., Genest, J., Pustelny, S., & Luiten, A. (2018). Simultaneous Observation of Nonlinear Magneto-Optical Rotation in the Temporal and Spectral Domains with an Electro-Optic Frequency Comb. Physical Review Applied, 10(3), 11 pages.
DOI Scopus14 WoS14
2018 Hilton, A., Perrella, C., Benabid, F., Sparkes, B., Luiten, A., & Light, P. (2018). High-efficiency cold-atom transport into a waveguide trap. Physical Review Applied, 10(4), 044034-1-044034-9.
DOI Scopus19 WoS19
2018 He, Y., Baldwin, K., Orr, B., Warrington, R., Wouters, M., Luiten, A., . . . Rayner, T. (2018). Long-distance telecom-fiber transfer of a radio-frequency reference for radio astronomy. Optica, 5(2), 138-146.
DOI Scopus131 WoS101
2018 Weng, W., Light, P., & Luiten, A. (2018). Ultra-sensitive lithium niobate thermometer based on a dual-resonant whispering-gallery-mode cavity. Optics Letters, 43(7), 1415-1418.
DOI Scopus18 WoS17 Europe PMC3
2018 Perrella, C., Light, P., Vahid, S., Benabid, F., & Luiten, A. (2018). Engineering photon-photon interactions within rubidium-filled waveguides. Physical Review Applied, 9(4), 044001-1-044001-9.
DOI Scopus11 WoS10
2018 Dakka, M. A., Tsiminis, G., Glover, R. D., Perrella, C., Moffatt, J., Spooner, N. A., . . . Luiten, A. N. (2018). Laser-based metastable krypton generation. Physical Review Letters, 121(9), 6 pages.
DOI Scopus24 WoS24 Europe PMC3
2018 Scholten, S. K., Perrella, C., Anstie, J. D., White, R. T., Al-Ashwal, W., Hebert, N. B., . . . Luiten, A. N. (2018). Number-density measurements of CO₂ in real time with an optical frequency comb for high accuracy and precision. Physical Review Applied, 9(5), 054043-1-054043-8.
DOI Scopus13 WoS10
2018 Luiten, A. (2018). Science meets parliament 2018. Australian Physics, 55(3), 102.
2017 Al-Ashwal, W., Hilton, A., Luiten, A., & Hartnett, J. (2017). Low phase noise frequency synthesis for ultrastable X-band oscillators. IEEE Microwave and Wireless Components Letters, 27(4), 392-394.
DOI Scopus8 WoS7
2017 Lee, S., Heo, M., Kwon, T., Hong, H., Lee, S., Hilton, A., . . . Park, S. (2017). Operating atomic fountain clock using robust DBR laser: short-term stability analysis. IEEE Transactions on Instrumentation and Measurement, 66(6), 1349-1354.
DOI Scopus13 WoS12
2017 Heo, M. -S., Park, S., Lee, W. -K., Lee, S. -B., Hong, H. -G., Kwon, T., . . . Hartnett, J. (2017). Drift-compensated low-noise frequency synthesis based on a cryoCSO for the KRISS-F1. IEEE Transactions on Instrumentation and Measurement, 66(6), 1343-1348.
DOI Scopus6 WoS5
2016 Michaud-Belleau, V., Bergeron, H., Light, P. S., Hébert, N. B., Deschênes, J. D., Luiten, A. N., & Genest, J. (2016). Passive coherent discriminator using phase diversity for the simultaneous measurement of frequency noise and intensity noise of a continuous-wave laser. Metrologia, 53(5), 1154-1164.
DOI Scopus18 WoS15
2016 Perrella, C., Light, P., Milburn, T., Kielpinski, D., Stace, T., & Luiten, A. (2016). Anomalous two-photon spectral features in warm rubidium vapor. Physical Review A - Atomic, Molecular, and Optical Physics, 94(3), 033403-1-033403-8.
DOI
2016 Hébert, N., Michaud-Belleau, V., Perrella, C., Truong, G., Anstie, J., Stace, T., . . . Luiten, A. (2016). Real-time dynamic atomic spectroscopy using electro-optic frequency combs. Physical Review Applied, 6(4), 044012-1-044012-9.
DOI Scopus21 WoS18
2016 Light, P., Hilton, A., White, R., Perrella, C., Anstie, J., Hartnett, J., . . . Luiten, A. (2016). Bidirectional microwave and optical signal dissemination. Optics Letters, 41(5), 1014-1017.
DOI Scopus3 WoS3 Europe PMC1
2016 Scholten, S. K., Anstie, J. D., Hébert, N. B., White, R. T., Genest, J., & Luiten, A. N. (2016). Complex direct comb spectroscopy with a virtually imaged phased array. Optics Letters, 41(6), 1277-1280.
DOI Scopus21 WoS19 Europe PMC4
2016 Anstie, J., Perrella, C., Light, P., & Luiten, A. (2016). Coherent radio-frequency detection for narrowband direct comb spectroscopy. Optics Express, 24(4), 4088-4096.
DOI Scopus1 WoS1 Europe PMC1
2016 Wigley, P., Everitt, P., Van Den Hengel, A., Bastian, J., Sooriyabandara, M., Mcdonald, G., . . . Hush, M. (2016). Fast machine-learning online optimization of ultra-cold-atom experiments. Scientific Reports, 6(1), 25890-1-25890-6.
DOI Scopus182 WoS182 Europe PMC40
2016 Headland, D., Withayachumnankul, W., Webb, M., Ebendorff-Heidepriem, H., Luiten, A., & Abbott, D. (2016). Analysis of 3D-printed metal for rapid-prototyped reflective terahertz optics. Optics Express, 24(15), 13 pages.
DOI Scopus28 WoS27 Europe PMC4
2015 Hébert, N., Michaud-Belleau, V., Anstie, J., Deschênes, J., Luiten, A., & Genest, J. (2015). Self-heterodyne interference spectroscopy using a comb generated by pseudo-random modulation. Optics Express, 23(21), 27806-27818.
DOI Scopus52 WoS42 Europe PMC23
2015 Truong, G., Anstie, J., May, E., Stace, T., & Luiten, A. (2015). Accurate lineshape spectroscopy and the Boltzmann constant. Nature communications, 6(1), 8345-1-8345-6.
DOI Scopus64 WoS55 Europe PMC11
2015 Truong, G., Stuart, D., Anstie, J., May, E., Stace, T., & Luiten, A. (2015). Atomic spectroscopy for primary thermometry. Metrologia, 52(5), S324-S342.
DOI Scopus36 WoS28
2015 Weng, W., & Luiten, A. (2015). Mode-interactions and polarization conversion in a crystalline microresonator. Optics Letters, 40(23), 5431-5434.
DOI Scopus19 WoS19 Europe PMC6
2015 Truong, G. -W., Anstie, J. D., May, E. F., Stace, T. M., & Luiten, A. N. (2015). Quantum-Limited Spectroscopy.
2015 Weng, W., Anstie, J. D., & Luiten, A. N. (2015). Refractometry with ultralow detection limit using anisotropic whispering-gallery-mode resonators. Physical Review Applied, 3(4), 044015-1-044015-6.
DOI Scopus16 WoS16
2015 Herbert, N., Scholten, S., White, R., Genest, J., Luiten, A., & Anstie, J. (2015). A quantitative mode-resolved frequency comb spectrometer. Optics Express, 23(11), 13991-14001.
DOI Scopus20 WoS19 Europe PMC9
2015 Light, P., Anstie, J., Benabid, F., & Luiten, A. (2015). Hermetic optical-fiber iodine frequency standard. Optics Letters, 40(12), 2703-2706.
DOI Scopus10 WoS11 Europe PMC2
2015 Weng, W., Anstie, J., Abbott, P., Fan, B., Stace, T., & Luiten, A. (2015). Stabilization of a dynamically unstable opto-thermo-mechanical oscillator. Physical Review A, 91(6), 063801-1-063801-7.
DOI Scopus20 WoS18
2015 Perrella, C., Griesser, H., Light, P., Kostecki, R., Stace, T., Ebendorff-Heidepriem, H., . . . Luiten, A. (2015). Demonstration of an exposed-core fiber platform for two photon rubidium spectroscopy. Physical review applied, 4(1), 014013-1-014013-7.
DOI Scopus10 WoS9
2014 Weng, W., & Luiten, A. N. (2014). Ultra-sensitive thermometer based on a compact optical resonator. Temperature, 2(1), 36-37.
DOI Scopus1
2014 Byrne, K., Chapman, J., & Luiten, A. (2014). IR-stimulated visible fluorescence in pink and brown diamond. Journal of Physics: Condensed Matter, 26(11), 115504.
DOI WoS1
2014 Byrne, K., Chapman, J., & Luiten, A. (2014). Photochromic charge transfer processes in natural pink and brown diamonds. Journal of Physics: Condensed Matter, 26(3), 035501-1-035501-6.
DOI Scopus15 WoS13 Europe PMC1
2014 Akulshin, A., Perrella, C., Truong, G., Luiten, A., Budker, D., & McLean, R. (2014). Linewidth of collimated wavelength-converted emission in Rb vapour. Applied Physics B, 117(1), 203-209.
DOI Scopus16 WoS12
2014 Byrne, K. S., Chapman, J. G., & Luiten, A. N. (2014). Corrigendum: photochromic charge transfer processes in natural pink and brown diamonds. Journal of Physics: Condensed Matter, 26(23), 239502-1.
DOI Scopus3 WoS1
2014 Weng, W., Anstie, J., Stace, T., Campbell, G., Baynes, F., & Luiten, A. (2014). Nano-Kelvin thermometry and temperature control: beyond the thermal noise limit. Physical Review Letters, 112(16), 160801-1-160801-5.
DOI Scopus79 WoS70 Europe PMC22
2014 Sia, P. I., Luiten, A. N., Stace, T. M., Wood, J. P. M., & Casson, R. J. (2014). Quantum biology of the retina. Clinical and Experimental Ophthalmology, 42(6), 582-589.
DOI Scopus18 WoS12 Europe PMC8
2013 Perrella, C., Light, P., Anstie, J., Baynes, F., & Luiten, A. (2013). Interferometric selection of frequency comb modes. Applied Physics B-Lasers and Optics, 113(2), 291-297.
DOI Scopus1 WoS1
2013 Hartnett, J., Tobar, M., Ivanov, E., & Luiten, A. (2013). Optimum design of a high-Q room-temperature Whispering-Gallery-mode x-band sapphire resonator. IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control, 60(6), 1041-1047.
DOI Scopus5 WoS4 Europe PMC1
2013 Perrella, C., Light, P., Anstie, J., Baynes, F., Benabid, F., & Luiten, A. (2013). Two-color rubidium fiber frequency standard. Optics Letters, 38(12), 2122-2124.
DOI Scopus15 WoS15 Europe PMC1
2013 Light, P., Perrella, C., & Luiten, A. (2013). Phase-sensitive imaging of cold atoms at the shot-noise limit. Applied Physics Letters, 102(17), 1-5.
DOI Scopus5 WoS5
2013 Perrella, C., Light, P., Anstie, J., Stace, T., Benabid, F., & Luiten, A. (2013). High-resolution two-photon spectroscopy of rubidium within a confined geometry. Physical Review A, 87(1), 1-5.
DOI Scopus33 WoS34
2013 He, Y., Orr, B., Baldwin, K., Wouters, M., Luiten, A., Aben, G., & Warrington, R. (2013). Stable radio-frequency transfer over optical fiber by phase-conjugate frequency mixing. Optics Express, 21(16), 18754-18764.
DOI Scopus98 WoS86 Europe PMC22
2013 Schediwy, S., Gozzard, D., Baldwin, K., Orr, B., Warrington, R., Aben, G., & Luiten, A. (2013). High-precision optical-frequency dissemination on branching optical-fiber networks. Optics Letters, 38(15), 2893-2896.
DOI Scopus57 WoS52 Europe PMC14
2013 Perrella, C., Light, P., Anstie, J., Benabid, F., Stace, T., White, A., & Luiten, A. (2013). High-efficiency cross-phase modulation in a gas-filled waveguide. Physical Review A, 88(1), 1-5.
DOI Scopus31 WoS32
2012 Murphy, M., Locke, C., Light, P., Luiten, A., & Lawrence, J. (2012). Laser frequency comb techniques for precise astronomical spectroscopy. Monthly Notices of the Royal Astronomical Society, 422(1), 761-771.
DOI Scopus26 WoS25
2012 Byrne, K., Anstie, J., Chapman, J., & Luiten, A. (2012). Infrared microspectroscopy of natural Argyle pink diamond. Diamond and Related Materials, 23, 125-129.
DOI Scopus12 WoS15
2012 Perrella, C., Light, P., Stace, T., Benabid, F., & Luiten, A. (2012). High-resolution optical spectroscopy in a hollow-core photonic crystal fiber. Physical Review A: Atomic, Molecular and Optical Physics, 85(1), 012518-1-012518-5.
DOI Scopus18 WoS18
2012 Byrne, K., Anstie, J., Chapman, J., & Luiten, A. (2012). Optically reversible photochromism in natural pink diamond. Diamond and Related Materials, 30, 31-36.
DOI Scopus15 WoS14
2012 Akulshin, A., Perrella, C., Truong, G., McLean, R., & Luiten, A. (2012). Frequency evaluation of collimated blue light generated by wave mixing in Rb vapour. Journal of Physics B-Atomic Molecular and Optical Physics, 45(24), 1-7.
DOI Scopus23 WoS23
2012 Truong, G., Anstie, J., May, E., Stace, T., & Luiten, A. (2012). Absolute absorption line-shape measurements at the shot-noise limit. Physical Review A, 86(3), 1-5.
DOI Scopus14 WoS14
2012 Stace, T., Truong, G., Anstie, J., May, E., & Luiten, A. (2012). Power-dependent line-shape corrections for quantitative spectroscopy. Physical Review A, 86(1), 1-5.
DOI Scopus14 WoS12
2012 Lurie, A., Light, P., Anstie, J., Stace, T., Abbott, P., Benabid, F., & Luiten, A. (2012). Saturation spectroscopy of iodine in hollow-core optical fiber. Optics Express, 20(11), 11906-11917.
DOI Scopus17 WoS16 Europe PMC6
2012 Baynes, F., Tobar, M., & Luiten, A. (2012). Oscillating test of the isotropic shift of the speed of light. Physical Review Letters, 108(26), 260801-1-260801-5.
DOI Scopus14 WoS13 Europe PMC3
2012 Truong, G. -W., May, E. F., Stace, T. M., & Luiten, A. N. (2012). Erratum: Quantitative atomic spectroscopy for primary thermometry [Phys. Rev. A 83, 033805 (2011)]. Physical Review A, 85(1), 019909-1.
DOI Scopus2 WoS2
2011 Lurie, A., Baynes, F., Anstie, J., Light, P., Benabid, F., Stace, T., & Luiten, A. (2011). High-performance iodine fiber frequency standard. Optics Letters, 36(24), 4776-4778.
DOI Scopus14 WoS16 Europe PMC6
2011 Hartnett, J., & Luiten, A. (2011). Colloquium: Comparison of astrophysical and terrestrial frequency standards. Reviews of Modern Physics, 83(1), 1-9.
DOI Scopus33 WoS31
2011 Poulin, J., Light, P., Kashyap, R., & Luiten, A. (2011). Optimized coupling of cold atoms into a fiber using a blue-detuned hollow-beam funnel. Physical review. A, Atomic, molecular, and optical physics, 84(5), 053812-1-053812-10.
DOI Scopus15 WoS13
2011 Baynes, F., Luiten, A., & Tobar, M. (2011). Testing Lorentz invariance using an odd-parity asymmetric optical resonator. Physical Review D - Particles, Fields, Gravitation and Cosmology, 84(8), 081101-1-081101-5.
DOI Scopus10 WoS11
2011 Haboucha, A., Zhang, W., Li, T., Lours, M., Luiten, A., Coq, L., & Santarelli, G. (2011). Optical-fiber pulse rate multiplier for ultralow phase-noise signal generation. Optics Letters, 36(18), 3654-3656.
DOI Scopus158 WoS138 Europe PMC34
2011 Zhang, W., Xu, Z., Lours, M., Boudot, R., Kersalé, Y., Luiten, A., . . . Santarelli, G. (2011). Advanced noise reduction techniques for ultra-low phase noise optical-to-microwave division with femtosecond fiber combs. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 58(5), 900-908.
DOI Scopus31 WoS20 Europe PMC5
2011 Truong, G., May, E., Stace, T., & Luiten, A. (2011). Quantitative atomic spectroscopy for primary thermometry. Physical Review A, 83(3), 033805-1-033805-9.
DOI Scopus53 WoS43
2010 Stace, T., & Luiten, A. (2010). Theory of spectroscopy in an optically pumped effusive vapor. Physical Review A - Atomic, Molecular, and Optical Physics, 81(3), 033848-1-033848-10.
DOI Scopus29 WoS20
2010 McFerran, J., & Luiten, A. (2010). Fractional frequency instability in the 10-14 range with a thermal beam optical frequency reference. Journal of the Optical Society of America B, 27(2), 277-285.
DOI Scopus34 WoS32
2009 Millo, J., Boudot, R., Lours, M., Bourgeois, P., Luiten, A., Le Coq, Y., . . . Santarelli, G. (2009). Ultra-low-noise microwave extraction from fiber-based optical frequency comb. Optics Letters, 34(23), 3707-3709.
DOI Scopus138
2009 McFerran, J., Hartnett, J., & Luiten, A. (2009). An optical beam frequency reference with 10‾¹⁴ range frequency instability. Applied Physics Letters, 95(3), 031103-1-031103-3.
DOI Scopus9 WoS8
2009 Locke, C., Stuart, D., Ivanov, E., & Luiten, A. (2009). A simple technique for accurate and complete characterisation of a Fabry-Perot cavity. Optics Express, 17(24), 21935-21943.
DOI Scopus27 WoS25 Europe PMC10
2009 Locke, C., Ivanov, E., Light, P., Benabid, F., & Luiten, A. (2009). Frequency stabilisation of a fibre-laser comb using a novel microstructured fibre. Optics Express, 17(7), 5897-5904.
DOI Scopus8 WoS8 Europe PMC3
2008 Dawkins, S., & Luiten, A. (2008). Single actuator alignment control for improved frequency stability of a cavity-based optical frequency reference. Applied Optics, 47(9), 1239-1246.
DOI Scopus6 WoS6 Europe PMC1
2008 Maric, M., McFerran, J., & Luiten, A. (2008). Frequency-comb spectroscopy of the D₁ line in laser-cooled rubidium. Physical Review A: Atomic, Molecular and Optical Physics, 77(3), 1-7.
DOI Scopus34 WoS31
2008 Benabid, F., Biancalana, F., Light, P., Couny, F., Luiten, A., Roberts, P., . . . Sokolov, A. (2008). Fourth-order dispersion mediated solitonic radiations in HC-PCF cladding. Optics Letters, 33(22), 2680-2682.
DOI Scopus31 WoS26 Europe PMC6
2007 Light, P. S., Benabid, F., Couny, F., Marie, M., & Luiten, A. N. (2007). Electromagnetically induced transparency in Rb-filled coated hollow-core photonic crystal fiber. Optics Letters, 32(10), 1323-1325.
DOI Scopus103 WoS85 Europe PMC17
2007 Dawkins, S. T., McFerran, J. J., & Luiten, A. N. (2007). Considerations on the measurement of the stability of oscillators with frequency counters. IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control, 54(5), 918-925.
DOI Scopus202 WoS195 Europe PMC39
2006 Tobar, M. E., Ivanov, E. N., Locke, C. R., Stanwix, P. L., Hartnett, J. G., Luiten, A. N., . . . Guillemot, P. (2006). Long-term operation and performance of cryogenic sapphire oscillators. IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control, 53(12), 2386-2391.
DOI Scopus24 WoS22 Europe PMC2
2006 McFerran, J. J., Dawkins, S. T., Stanwix, P. L., Tobar, M. E., & Luiten, A. N. (2006). Optical frequency synthesis from a cryogenic microwave sapphire oscillator. Optics Express, 14(10), 4316-4327.
DOI Scopus11 WoS11 Europe PMC3
2006 Vian, C., Rosenbusch, P., Marion, H., Bize, S., Cacciapuoti, L., Abgrall, M., . . . Salomon, C. (2006). Frequency comparison between two atomic fountain clocks at the 10-16 level. Annales Françaises des Microtechniques et de Chronométrie, 54, 83-88.
2005 Daussy, C., Lopez, O., Amy-Klein, A., Goncharov, A., Guinet, M., Chardonnet, C., . . . Luiten, A. N. (2005). Long-distance frequency dissemination with a resolution of 10‾¹⁷. Physical Review Letters, 94(20), 203904-1-203904-4.
DOI Scopus156 WoS137 Europe PMC35
2005 McFerran, J. J., Winterflood, J., Burton, C., & Luiten, A. N. (2005). Resonant interferometric autocorrelator for estimation of laser pulse duration - art. no. 013102. REVIEW OF SCIENTIFIC INSTRUMENTS, 76(1), 5 pages.
DOI
2005 Maric, M., & Luiten, A. (2005). Power-insensitive side locking for laser frequency stabilization. Optics Letters, 30(10), 1153-1155.
DOI Scopus5 WoS5 Europe PMC1
2005 Vian, C., Rosenbusch, P., Marion, H., Bize, S., Cacciapuoti, L., Zhang, S., . . . Salomon, C. (2005). BNM-SYRTE fountains: Recent results. IEEE Transactions on Instrumentation and Measurement, 54(2), 833-836.
DOI Scopus97 WoS88
2005 Luiten, A. N., & Petersen, J. C. (2005). Erratum: On detection of vacuum birefringence using intense laser pulses (Physics Letter A (2004) 330 (429) DOI: 10.1016/j.physleta.2004.08.020). Physics Letters Section A General Atomic and Solid State Physics, 346(5-6), 385-386.
DOI Scopus4 WoS3
2005 Bize, S., Laurent, P., Abgrall, M., Marion, H., Maksimovic, I., Cacciapuoti, L., . . . Salomon, C. (2005). Cold atom clocks and applications. Journal of Physics B Atomic Molecular and Optical Physics, 38(9), S449-S468.
DOI Scopus227 WoS202
2005 Chambon, D., Bize, S., Lours, M., Narbonneau, F., Marion, H., Clairon, A., . . . Tobar, M. (2005). Design and realization of a flywheel oscillator for advanced time and frequency metrology. Review of Scientific Instruments, 76(9), 5 pages.
DOI Scopus71 WoS62
2004 Bize, S., Laurent, P., Abgrall, M., Marion, H., Maksimovic, I., Cacciapuoti, L., . . . Salomon, C. (2004). Advances in atomic fountains. Comptes Rendus Physique, 5(8 SPEC.ISS.), 829-843.
DOI Scopus89 WoS63
2004 McFerran, J. J., Maric, M., & Luiten, A. N. (2004). New method to estimate the frequency stability of laser signals. Review of Scientific Instruments, 75(6), 2065-2067.
DOI Scopus2 WoS1
2004 Luiten, A. N., & Petersen, J. C. (2004). Detection of vacuum birefringence using intense laser pulses. Physics Letters Section A General Atomic and Solid State Physics, 330(6), 429-434.
DOI Scopus24 WoS22
2004 Luiten, A. N., & Petersen, J. C. (2004). Ultrafast resonant polarization interferometry: Towards the first direct detection of vacuum polarization. Physical Review A Atomic Molecular and Optical Physics, 70(3), 1-33801.
DOI Scopus18 WoS20
2004 Mcferran, J. J., Marić, M., & Luiten, A. N. (2004). Efficient detection and control of the carrier-envelope offset frequency in a self-referencing optical frequency synthesizer. Applied Physics B Lasers and Optics, 79(1), 39-44.
DOI Scopus3 WoS3
2004 Wolf, P., Tobar, M. E., Bize, S., Clairon, A., Luiten, A. N., & Santarelli, G. (2004). Whispering Gallery resonators and tests of Lorentz invariance. General Relativity and Gravitation, 36(10 SPEC.ISS.), 2351-2372.
DOI Scopus61 WoS69
2004 Wolf, P., Bize, S., Clairon, A., Santarelli, G., Tobar, M. E., & Luiten, A. N. (2004). Improved test of Lorentz invariance in electrodynamics. Physical Review D - Particles, Fields, Gravitation and Cosmology, 70(5), 051902-1-051902-4.
DOI Scopus108 WoS91
2004 Vian, C., Rosenbusch, P., Marion, H., Dos Santos, F. P., Abgrall, M., Zhang, S., . . . Tobar, M. (2004). The BNM-SYRTE fountain clock - Recent results. Journal de Physique IV, 119, 287-288.
2003 Wolf, P., Bize, S., Clairon, A., Luiten, A. N., Santarelli, G., & Tobar, M. E. (2003). Tests of Lorentz invariance using a microwave resonator. Physical Review Letters, 90(6), 060402-1-060402-4.
DOI Scopus122 WoS1
2003 Petersen, J. C., & Luiten, A. N. (2003). Short pulses in optical resonators. Optics Express, 11(22), 2975-2981.
DOI Scopus13 WoS14 Europe PMC4
2003 McFerran, J. J., & Luiten, A. N. (2003). Uniform oscillations of supercontinua. APPLIED PHYSICS B-LASERS AND OPTICS, 77(2-3), 259-264.
DOI WoS1
2002 McFerran, J. J., & Luiten, A. N. (2002). Coherent bisection of 141 THz using sum frequency generation of 1064 and 709 nm radiation. Optical and Quantum Electronics, 34(9), 841-858.
DOI Scopus2 WoS2
2002 Hartnett, J. G., Luiten, A. N., Krupka, J., Tobar, M. E., & Bilski, P. (2002). Influence of paramagnetic chromium ions in crystalline YAG at microwave frequencies. Journal of Physics D Applied Physics, 35(13), 1459-1466.
DOI Scopus11 WoS9
2001 Sortais, Y., Bize, S., Abgrall, M., Zhang, S., Nicolas, C., Mandache, C., . . . Salomon, C. (2001). Cold atom clocks. Physica Scripta T, 95(1), 50-57.
DOI Scopus56 WoS64
2001 Mann, A. G., Sheng, C., & Luiten, A. N. (2001). Cryogenic sapphire oscillator with exceptionally high frequency stability. IEEE Transactions on Instrumentation and Measurement, 50(2), 519-521.
DOI Scopus44 WoS40
2000 McFerran, J. J., & Luiten, A. N. (2000). Efficient continuous-wave ultraviolet generation in LiB<sub>3</sub>O<sub>5</sub> and RbD<sub>2</sub>AsO<sub>4</sub>. APPLIED OPTICS, 39(18), 3115-3119.
DOI WoS2
2000 Chang, S., Mann, A. G., & Luiten, A. N. (2000). Improved cryogenic sapphire oscillator with exceptionally high frequency stability. Electronics Letters, 36(5), 480-481.
DOI Scopus66 WoS57
2000 McFerran, J. J., & Luiten, A. N. (2000). Efficient continuous-wave ultraviolet generation in LiB3O5 and RbD2AsO4. Applied Optics, 39(18), 3115-3119.
DOI Scopus3
1999 Luiten, A. N., McFerran, J. J., & Kovacich, R. P. (1999). Optical frequency synthesis. Proceedings of the Annual IEEE International Frequency Control Symposium, 2, 635-638.
1999 Santarelli, G., Laurent, P., Lemonde, P., Clairon, A., Mann, A. G., Chang, S., . . . Salomon, C. (1999). Quantum projection noise in an atomic fountain: a high stability cesium frequency standard. Physical Review Letters, 82(23), 4619-4622.
DOI Scopus544 WoS491
1999 Luiten, A. N., Kovacich, R. P., & McFerran, J. J. (1999). Optical frequency synthesis with 1 Hz resolution. IEEE Transactions on Instrumentation and Measurement, 48(2), 558-562.
DOI Scopus2 WoS4
1999 Luiten, A. (1999). Clocks, oscillators and synthesizers. Physicist, 36(5), 169.
1998 Luiten, A. N., Tobar, M. E., Krupka, J., Woode, R., Ivanov, E. N., & Mann, A. G. (1998). Microwave properties of a rutile resonator between 2 and 10 K. Journal of Physics D Applied Physics, 31(11), 1383-1391.
DOI Scopus18 WoS13
1998 Stace, T., Luiten, A. N., & Kovacich, R. P. (1998). Laser offset-frequency locking using a frequency-to-voltage converter. Measurement Science and Technology, 9(9), 1635-1637.
DOI Scopus33 WoS31
1997 Luiten, A. N., Beccaria, M., Bernadini, M., Braccini, S., Bradaschia, C., Cella, G., . . . Zhang, Z. (1997). Ground tilt seismic spectrum measured with a new high sensitivity rotational accelerometer. Review of Scientific Instruments, 68(4), 1889-1893.
DOI Scopus15 WoS15
1997 Chang, S., Mann, A. G., Luiten, A. N., & Blair, D. G. (1997). Measurements of radiation pressure effect in cryogenic sapphire dielectric resonators. Physical Review Letters, 79(11), 2141-2144.
DOI Scopus34 WoS30
1996 Luiten, A. N., Mann, A. G., & Blair, D. G. (1996). Paramagnetic susceptibility and permittivity measurements at microwave frequencies in cryogenic sapphire resonators. Journal of Physics D Applied Physics, 29(8), 2082-2090.
DOI Scopus40 WoS38
1996 Krupka, J., Cros, D., Luiten, A., & Tobar, M. (1996). Design of very high Q sapphire resonators. Electronics Letters, 32(7), 670-671.
DOI Scopus25 WoS24
1996 Luiten, A. N., Mann, A. G., & Blair, D. G. (1996). High-resolution measurement of the temperature-dependence of the Q, coupling and resonant frequency of a microwave resonator. Measurement Science and Technology, 7(6), 949-953.
DOI Scopus25 WoS26
1995 Luiten, A. N., Mann, A. G., Costa, M. E., & Blair, D. G. (1995). Power Stabilized Cryogenic Sapphire Oscillator. IEEE Transactions on Instrumentation and Measurement, 44(2), 132-135.
DOI Scopus64 WoS59
1994 Costa, M. E., Mann, A. G., Luiten, A. N., Blair, D. G., & He, J. W. (1994). Combined sapphire oscillator-hydrogen maser frequency standard. Electronics Letters, 30(25), 2119-2120.
DOI Scopus1 WoS1
1994 Costa, M. E., Luiten, A. N., Tobar, M. E., & Blair, D. G. (1994). Oscillator performance from the time evolution of relative phase. Electronics Letters, 30(2), 149-151.
DOI Scopus2 WoS1
1994 Luiten, A. N., Mann, A. G., & Blair, D. G. (1994). Cryogenic sapphire microwave resonator-oscillator with exceptional stability. Electronics Letters, 30(5), 417-419.
DOI Scopus23 WoS21
1993 Luiten, A. N., Mann, A. G., & Blair, D. G. (1993). Ultrahigh Q-factor cryogenic sapphire resonator. Electronics Letters, 29(10), 879-881.
DOI Scopus42 WoS42
1993 Luiten, A. N., Mann, A. G., Giles, A. J., & Blair, D. G. (1993). Ultra-Stable Sapphire Resonator-Oscillator. IEEE Transactions on Instrumentation and Measurement, 42(2), 439-443.
DOI Scopus16 WoS15
1992 Costa, M. E., Blair, D. G., Buckingham, M. J., Giles, A. J., Jones, S. K., Luiten, A. N., . . . Mann, A. G. (1992). A sapphire oscillator for VLBI radio astronomy. Measurement Science and Technology, 3(8), 718-722.
DOI Scopus13 WoS12
1991 Jauncey, D. L., Reynolds, J. E., Tzioumis, A. K., Muxlow, T. W. B., Perley, R. A., Murphy, D. W., . . . White, G. L. (1991). An unusually strong Einstein ring in the radio source PKS1830-211. Nature, 352(6331), 132-134.
DOI Scopus103 WoS119

Year Citation
2003 Luiten, A. N. (2003). Frequency Measurement and Control Advanced Techniques and Future Trends. Springer Science & Business Media.
2000 Prestage, J. D., Tjoelker, R. L., & Maleki, L. (2000). Recent developments in microwave ion clocks (Vol. 79). A. N. Luiten (Ed.), SPRINGER-VERLAG BERLIN.
WoS20
2000 Prestage, J. D., Tjoelker, R. L., & Maleki, L. (2000). Recent developments in microwave ion clocks (Vol. 79). A. N. Luiten (Ed.), SPRINGER-VERLAG BERLIN.
WoS20
2000 Mann, A. G. (2000). Ultrastable cryogenic microwave oscillators (Vol. 79). A. N. Luiten (Ed.), SPRINGER-VERLAG BERLIN.
WoS6
2000 Mann, A. G. (2000). Ultrastable cryogenic microwave oscillators (Vol. 79). A. N. Luiten (Ed.), SPRINGER-VERLAG BERLIN.
WoS6
2000 Madej, A. A., & Bernard, J. E. (2000). Single-ion optical frequency standards and measurement of their absolute optical frequency (Vol. 79). A. N. Luiten (Ed.), SPRINGER-VERLAG BERLIN.
WoS26
2000 Madej, A. A., & Bernard, J. E. (2000). Single-ion optical frequency standards and measurement of their absolute optical frequency (Vol. 79). A. N. Luiten (Ed.), SPRINGER-VERLAG BERLIN.
WoS26

Year Citation
2006 Wolf, P., Bize, S., Tobar, M. E., Chapelet, F., Clairon, A., Luiten, A. N., & Santarelli, G. (2006). Recent experimental tests of special relativity. In J. Ehlers, & C. Lammerzahl (Eds.), Lecture Notes in Physics (Vol. 702, pp. 451-478). SPRINGER-VERLAG BERLIN.
DOI Scopus4 WoS3
2005 Luiten, A. N. (2005). Q-factor Measurement. In K. Chang (Ed.), Encyclopedia of RF and Microwave Engineering, Vol. 5 (pp. 3948-3964).
2001 Luiten, A. N. (2001). Q-Factor Measurement. In S. A. Dyer (Ed.), Survey of Instrumentation and Measurement (pp. 373-386).
2000 Luiten, A. N. (2000). Accurate optical-frequency synthesis. In A. N. Luiten (Ed.), Unknown Book (Vol. 79, pp. 337-387). SPRINGER-VERLAG BERLIN.
WoS1
2000 Lemonde, P., Laurent, P., Santarelli, G., Abgrall, M., Sortais, Y., Bize, S., . . . Salomon, C. (2000). Cold-atom clocks on Earth and in space. In A. N. Luiten (Ed.), Unknown Book (Vol. 79, pp. 131-152). SPRINGER-VERLAG BERLIN.
WoS20
1999 Luiten, A. N. (1999). Q-Factor Measurement. In J. Webster (Ed.), Wiley Encyclopedia of Electrical and Electronics Engineering, Volume 17 (pp. 477-491).

Year Citation
2024 Weng, W., Sharma, A., Kaszubowska-Anandarajah, A., Anandarajah, P., & Luiten, A. (2024). Gain-Switched-Laser Frequency Comb Self-Injection-Locked to a Microresonator. In 2024 Conference on Lasers and Electro-Optics, CLEO 2024 (pp. 2 pages). Charlotte, USA: IEEE.
2024 Weng, W., & Luiten, A. (2024). Ultrasensitive Thermometry Using Coupled Modes in an Optical Microresonator. In 2024 Conference on Lasers and Electro-Optics, CLEO 2024.
2024 Weng, W., & Luiten, A. (2024). Ultrasensitive Thermometry Using Coupled Modes in an Optical Microresonator. In 2024 Conference on Lasers and Electro-Optics, CLEO 2024 (pp. SF1P.4). Charlotte, USA: Optica Publishing Group.
DOI
2024 Weng, W., Sharma, A., Kaszubowska-Anandarajah, A., Anandarajah, P., & Luiten, A. (2024). Gain-Switched-Laser Frequency Comb Self-Injection-Locked to a Microresonator. In 2024 Conference on Lasers and Electro-Optics, CLEO 2024 (pp. JTu2A.44). Charlotte, USA: Optica Publishing Group.
DOI
2024 Weng, W., & Luiten, A. (2024). Ultrasensitive Thermometry Using Coupled Modes in an Optical Microresonator. In CLEO: Science and Innovations, CLEO: S and I 2024 in Proceedings CLEO 2024, Part of Conference on Lasers and Electro-Optics (pp. 2 pages). Charlotte, USA: Optical Society of America.
2024 Weng, W., Sharma, A., Kaszubowska-Anandarajah, A., Anandarajah, P., & Luiten, A. (2024). Gain-Switched-Laser Frequency Comb Self-Injection-Locked to a Microresonator. In CLEO: Science and Innovations, CLEO: S and I 2024 in Proceedings CLEO 2024, Part of Conference on Lasers and Electro-Optics (pp. 2 pages). Charlotte, USA: Optical Society of America.
2023 Locke, C. R., Ng, S., Scarabel, J., O'Connor, M., Luiten, A. N., Scholten, S. K., . . . Perrella, C. (2023). Portable Optical Atomic Clock Based on a Dichroic Two-Photon Transition in Rubidium. In Proceedings - 2023 Joint Conference of the European Frequency and Time Forum and IEEE International Frequency Control Symposium, EFTF/IFCS 2023 (pp. 1-2). Online: IEEE.
DOI Scopus3
2020 Chetty, D., Glover, R. D., Xu, H., Palmer, A. J., Deharak, B. A., Light, P. S., . . . Sang, R. T. (2020). Experimental comparison of frustrated tunnel ionisation in multi-cycle and few-cycle pulses. In L. U. Ancarani, C. Bordas, F. Lepine, D. Vernhet, H. Bachau, R. Bredy, . . . F. Penent (Eds.), Journal of Physics Conference Series Vol. 1412 (pp. 1 page). Deauville, FRANCE: IOP PUBLISHING LTD.
DOI
2020 Karim, F., Scholten, S. K., Perrella, C., & Luiten, A. N. (2020). Measuring Thermodynamic Properties of Gas Molecules with a High-Resolution Frequency Comb Spectrometer. In 2020 Conference on Lasers and Electro-Optics Pacific Rim, CLEO-PR 2020 - Proceedings (pp. 1-2). online: OSA/IEEE.
DOI
2019 Light, P. S., Glover, R. D., Dakka, M. A., Tsiminis, G., Palmer, A. J., Chetty, D., . . . Luiten, A. N. (2019). Towards an Australian Atom-Trap Trace Analysis (ATTA) facility. In A. Mitchell, & H. RubinszteinDunlop (Eds.), Proceedings of SPIE the International Society for Optical Engineering Vol. 11200 (pp. 2 pages). Melbourne, AUSTRALIA: SPIE-INT SOC OPTICAL ENGINEERING.
DOI
2019 Wilson, N., Li, R., Perrella, C., Light, P., Anderson, R., & Luiten, A. (2019). A high-bandwidth atomic magnetometer. In Proceedings of SPIE - The International Society for Optical Engineering Vol. 11200 (pp. 1-2). online: SPIE.
DOI Scopus1 WoS1
2019 Scholten, S. K., Whitaker-Lockwood, J., Perrella, C., Karim, F., & Luiten, A. N. (2019). High-resolution molecular spectroscopy and biological applications. In Proceedings of SPIE - The International Society for Optical Engineering Vol. 11200 (pp. 1-3). online: SPIE.
DOI
2019 Rowland, J., Light, P. S., Luiten, A. N., Perrella, C., & Sparkes, B. M. (2019). Injection locking of a pulsed VCSEL. In Proceedings of SPIE - The International Society for Optical Engineering Vol. 11200 (pp. 1-3). online: SPIE.
DOI
2019 Hedger, J. P., Luiten, A. N., & Sparkes, B. M. (2019). Compact stable fibre-based optical frequency filter. In Proceedings of SPIE - The International Society for Optical Engineering Vol. 11200 (pp. 1-3). online: SPIE.
DOI
2018 Glover, R. D., Chetty, D., Palmer, A. J., Deharak, B. A., Holdsworth, J. L., Dakka, M. A., . . . Sang, R. T. (2018). Frustrated tunnel ionization in the few-cycle regime. In Proceedings of the Frontiers in Optics: the 102nd OSA Annual Meeting and Exhibit/Laser Science Conference Vol. JW3A.54 (pp. 1-2). Washington, DC, United States: The Optical Society.
DOI
2018 Truong, G., Scholten, S., Karim, F., Anstie, J., Perrella, C., Light, P., . . . Luiten, A. (2018). Measuring temperature with atoms and molecules. In Proceedings of the CLEO: Science and Innovations 2018 Vol. Part F94-CLEO_SI 2018 (pp. 1-2). San Jose, California: OSA Publishing.
DOI
2018 Heffernan, L., Holmes, Z., Inglis, J., Shearer, N., Shaddock, D., Roberts, L., . . . Luiten, A. (2018). Target acquisition and tracking of extremely long distance targets using multiple risley prism systems. In Proceedings of the International Astronautical Congress, IAC Vol. 2018-October (pp. 5225-5232). USA: International Astronautical Federation, IAF.
2017 Light, P. S., Glover, R. D., Dakka, M. A., Sang, R. T., & Luiten, A. N. (2017). Laser-based noble-gas metastable excitation techniques with application to atom trap trace analysis. In 2017 Conference on Lasers and Electro-Optics (CLEO) Vol. 2017-January (pp. 1-2). IEEE: Optica Publishing group.
DOI Scopus1 WoS1
2016 Headland, D., Withayachumnankul, W., Webb, M., Ebendorff-Heidepriem, H., Luiten, A., & Abbott, D. (2016). Reflective terahertz optics using 3D-printed metals. In 2016 41st International Conference on Infrared, Millimeter, and Terahertz waves (IRMMW-THz) Vol. 2016-November (pp. 1-2). Copenhagen: IEEE.
DOI
2016 Michaud-Belleau, V., Bergeron, H., Light, P. S., Hebert, N. B., Deschenes, J. D., Luiten, A. N., & Genest, J. (2016). Passive coherent discriminator using phase diversity for the measurement of CW laser frequency noise. In 2016 Conference on Lasers and Electro-Optics, CLEO 2016 (pp. 2 pages). San Jose, CA: IEEE.
DOI
2016 Baldwin, K., He, Y., Orr, B., Warrington, R., Luiten, A., Mirtschin, P., . . . Rayner, T. (2016). Long-distance fiber-optical transfer of a radio-frequency control signal for radio-astronomy and sensing applications. In Optics InfoBase Conference Papers Vol. Part F3-ACOFT 2016 (pp. 1-2). online: OSA.
DOI Scopus1
2016 Baldwin, K. G. H., He, Y., Orr, B. J., Warrington, R. B., Luiten, A. N., Mirtschin, P., . . . Rayner, T. (2016). Dissemination of precise radio-frequency references for environmental sensing over long-haul optical-fiber networks. In Optics InfoBase Conference Papers (pp. 3 pages). Leipzig, Germany: Optica Publishing Group.
DOI
2016 Michaud-Belleau, V., Hebert, N. B., Anstie, J. D., Luiten, A. N., & Genest, J. (2016). Self-heterodyne interference spectroscopy using pseudo-noise modulation. In 2015 11th Conference on Lasers and Electro-Optics Pacific Rim, CLEO-PR 2015 Vol. 3 (pp. 2 pages). online: IEEE.
DOI
2015 Baldwin, K. G. H., He, Y., Orr, B. J., Warrington, R. B., Luiten, A. N., Mirtschin, P., . . . Rayner, T. (2015). High-precision optical-fiber transfer of a radio-frequency reference for remote environmental and industrial sensing. In Optics Infobase Conference Papers.
2014 Perrella, C., Anstie, J., Light, P., Benabid, F., White, A., & Luiten, A. (2014). Hollow-core fibre frequency standard. In Proceedings 2014 IEEE International Frequency Control Symposium (pp. 61). Taipei, Taiwan: IEEE Computer Society.
DOI
2014 Hilton, A., Hartnett, J., Ivanov, E., & Luiten, A. (2014). Ultra-high stability cryocooled sapphire microwave oscillators. In Proceedings 2014 IEEE International Frequency Control Symposium (pp. 306). Taipei, TAIWAN: IEEE Computer Society.
DOI
2014 Perrella, C., Anstie, J., Light, P., Benabid, F., Stace, T., White, A. G., & Luiten, A. N. (2014). Fibre-atom optics: a platform for frequency stabilization and quantum information applications. In Proceedings of the 2014 OptoElectronics and Communication Conference and Australian Conference on Optical Fibre Technology (OECC/ACOFT 2014) (pp. 656-657). Melbourne, Victoria: IEEE Computer Society.
2012 Baldwin, K., He, Y., Hsu, M., Wouters, M., Gray, M., Orr, B., . . . Warrington, R. (2012). Analog and all-digital frequency distribution via optical fiber links. In 2012 Conference on Lasers and Electro-Optics (CLEO) (pp. 2 pages). San Jose, CA, USA: IEEE.
DOI Scopus4
2012 Schediwy, S., Luiten, A., Aben, G., Baldwin, K., He, Y., Orr, B., & Warrington, B. (2012). Microwave frequency transfer with optical stabilisation. In Proceedings, EFTF 2012 - 2012 European Frequency and Time Forum (pp. 211-213). Gothenburg, Sweden: IEEE.
DOI Scopus4
2012 Stace, T., Perrella, C., Light, P., Benabid, F., & Luiten, A. (2012). Observation of electromagnetically induced transparency (EIT) in Rb-filled hollow-core fibre. In Research in Optical Sciences, as publshed in Optics InfoBase Conference Papers (pp. QW3B.3-1-QW3B.3-3). Berlin, Germany: Optical Society of America.
DOI
2012 Ironside, C. N., Seunarine, K., Tandoi, G., & Luiten, A. N. (2012). Prospects for atomic magnetometers employing hollow core optical fibre. In R. R. K. Drampyan (Ed.), Photonics and Micro- and Nano-structured Materials 2011, as published in Proceedings of SPIE Vol. 8414 (pp. 84140V-1-84140V-5). Yerevan, Armenia: SPIE.
DOI Scopus1
2011 Perrella, C., Light, P., Luiten, A., Benabid, F., & Stace, T. (2011). High resolution optical spectroscopy in hollow core fibre for use in atomic clocks. In Proceedings of the International Quantum Electronics Conference and Conference on Lasers and Electro-Optics Pacific Rim 2011 (pp. 851-853). Sydney, Australia: Optical Society of America.
DOI
2011 Truong, G. -W., Anstie, J., Luiten, A., Stace, T., & May, E. (2011). Precision laser absorption spectroscopy for primary thermometry. In Optics InfoBase Conference Papers (pp. 1087-1089). Sydney, Australia: Optics Society of America.
DOI
2011 Baynes, F., Tobar, M., & Luiten, A. (2011). Odd-parity tests of electrodynamics. In Proceedings of the International Quantum Electronics Conference and Conference on Lasers and Electro-Optics Pacific Rim 2011 (pp. 1164-1166). Sydney Australia: Optical Society of America.
DOI
2011 Zhang, W., Li, T., Haboucha, A., Lours, M., Luiten, A., Holzwarth, R., . . . Le Coq, Y. (2011). Low phase noise microwave generation with fiber-based femtosecond lasers and applications. In 2011 XXXth URSI General Assembly and Scientific Symposium (pp. 1-4). Istanbul, Turkey: IEEE.
DOI
2011 He, Y., Hsu, M., Gray, M., Wouters, M., Warrington, R., Luiten, A., . . . Aben, G. (2011). An optical fibre-based frequency dissemination network for Australia. In 2011 Joint Conference of the IEEE International Frequency Control Symposium & European Frequency and Time Forum Proceedings (pp. 649-651). San Francisco, California: IEEE.
DOI
2011 Zhang, W., Haboucha, A., Li, T., Seidelin, S., Luiten, A., Holzwarth, R., . . . Santarelli, G. (2011). New strategies for fiber-based femtosecond lasers low-noise microwave generation. In Proceedings of the IEEE International Frequency Control Symposium and Exposition (pp. 992-+). San Francisco, CA: IEEE.
DOI
2011 Tandoi, G., Seunarine, K., Ironside, C. N., Bryce, C. A., McDougall, S. D., Meredith, W., & Luiten, A. N. (2011). Passively mode-locked semiconductor laser for coherent population trapping in 87Rb. In 2011 Conference on Lasers and Electro Optics Europe and 12th European Quantum Electronics Conference CLEO Europe Eqec 2011 (pp. 1). IEEE.
DOI Scopus1
2011 Le Coq, Y., Zhang, W., Xu, Z., Millo, J., Boudot, R., Lours, M., . . . Santarelli, G. (2011). Optics to microwave synchronisation at sub-100 attoseconds stability level. In Optics Infobase Conference Papers (pp. FWB1). OSA.
DOI
2010 Zhang, W., Xu, Z., Millo, J., Boudot, R., Lours, M., Bourgeois, P. Y., . . . Santarelli, G. (2010). Ultra-low noise microwave extraction from fiber-based optical frequency comb. In Eftf 2010 24th European Frequency and Time Forum Vol. 34 (pp. 3707-3709). United States: OPTICAL SOC AMER.
DOI WoS116 Europe PMC25
2010 Le Coq, Y., Millo, J., Zhang, W., Abgrall, M., Lours, M., Jiang, H., . . . Luiten, A. N. (2010). Ultra-low noise microwave generation using femtosecond lasers and applications. In Conference on Lasers and Electro-Optics 2010 (pp. CTuDD5 (2 pages)). San Jose, California: IEEE.
DOI Scopus1
2010 Le Coq, Y., Zhang, W., Millo, J., Boudot, R., Lours, M., Luiten, A. N., . . . Kersalé, Y. (2010). Optics to microwave low phase noise frequency division : Synchronization with stability below 100 attoseconds. In 2010 IEEE International Frequency Control Symposium Fcs 2010 (pp. 179-182). Newport Beach, CA: IEEE.
DOI
2010 Lurie, A., Locke, C. R., Perrella, C., Light, P. S., Benabid, F., & Luiten, A. N. (2010). Towards a compact optical fibre clock. In CPEM Digest Conference on Precision Electromagnetic Measurements (pp. 16-17). SOUTH KOREA, Daejeon: IEEE.
DOI Scopus1 WoS1
2010 Baynes, F., Tobar, M., & Luiten, A. (2010). Testing Lorentz invariance using an asymetric optical resonator. In 2010 Conference on Precision Electromagnetic Measurements (CPEM 2010): Proceedings of a Meeting held 13-18 June 2010, Daejeon, South Korea (pp. 486-487). Daejeon, Korea: IEEE.
DOI
2009 Biancalana, F., Benabid, F., Light, P. S., Couny, F., Luiten, A., Roberts, P. J., . . . Sokolov, A. V. (2009). 4OD-mediated solitonic radiations in HC-PCF cladding. In 2009 Conference on Lasers and Electro Optics and 2009 Conference on Quantum Electronics and Laser Science Conference CLEO QELS 2009 (pp. 1437-+). Baltimore, MD: IEEE.
DOI
2008 Light, P. S., Benabid, F., Maric, M., Luiten, A. N., & Couny, F. (2008). Electromagnetically induced transparency in rubidium-filled kagome HC-PCF. In Conference on Quantum Electronics and Laser Science QELS Technical Digest Series (pp. 3281-+). San Jose, CA: IEEE.
DOI Scopus1
2007 Light, P. S., Benabid, F., Maric, M., Luiten, A. N., & Couny, F. (2007). Electromagnetically induced transparency in rubidium-filled HC-PCF. In Conference on Lasers and Electro Optics Europe Technical Digest (pp. 1). IEEE.
DOI
2007 Locke, C. R., Fortier, T. M., McFerran, J. J., Ivanov, E. N., Luiten, A. N., Light, P. S., & Benabid, F. (2007). High-bandwidth frequency stabilization of a fibre-laser frequency comb. In Proceedings of the IEEE International Frequency Control Symposium and Exposition (pp. 128-131). SWITZERLAND, Geneva: IEEE, ELECTRON DEVICES SOC & RELIABILITY GROUP.
DOI
2007 Dawkins, S. T., McFerran, J. J., & Luiten, A. N. (2007). Considerations on the measurement of the stability of oscillators with frequency counters. In Proceedings of the IEEE International Frequency Control Symposium and Exposition (pp. 759-764). Geneva, SWITZERLAND: IEEE, ELECTRON DEVICES SOC & RELIABILITY GROUP.
DOI Scopus7 WoS1
2006 Chapelet, F., Marion, H., Chambon, D., Vian, C., Rosenbusch, P., Bize, S., . . . Clairon, A. (2006). Final advances in atomic springs. In JOURNAL DE PHYSIQUE IV Vol. 135 (pp. 115-117). Dijon, FRANCE: EDP SCIENCES S A.
DOI
2005 Vian, C., Rosenbusch, P., Marion, H., Bize, S., Cacciapuoti, L., Abgrall, M., . . . Salomon, C. (2005). Frequency comparison between two atomic fountain clocks at the 10-16 level. In 19th European Frequency and Time Forum Eftf 2005 Proceedings (pp. 52-57).
Scopus3
2005 Mandache, C., Vian, C., Rosenbusch, P., Marion, H., Laurent, P., Santarelli, G., . . . Salomon, C. (2005). Comparison with an uncertainty of 2×10-16 between two primary frequency standards. In Proceedings of the IEEE International Frequency Control Symposium and Exposition Vol. 2005 (pp. 93-98). Vancouver, CANADA: IEEE.
DOI
2005 Bize, S., Marion, H., Cacciapuoti, L., Vian, C., Rosenbusch, P., Pereira Dos Santos, F., . . . Clairon, A. (2005). Advances in 133Cs fountains: Control of the cold collision shift and observation of feshbach resonances. In L. G. Marcassa, V. S. Bagnato, & K. Helmerson (Eds.), Aip Conference Proceedings Vol. 770 (pp. 93-102). BRAZIL, Rio de Janeiro: AMER INST PHYSICS.
DOI
2005 Tobar, M. E., Ivanov, E. N., Locke, C. R., Stanwix, P. L., Hartnett, J. G., Luiten, A. N., . . . Guillemot, P. (2005). Long term operation, performance and applications of cryogenic sapphire oscillators. In Proceedings of the IEEE International Frequency Control Symposium and Exposition Vol. 2005 (pp. 350-354). Vancouver, CANADA: IEEE.
DOI Scopus2 WoS1
2004 Vian, C., Rosenbusch, P., Marion, H., Dos Santos, F. P., Abgrall, M., Zhang, S., . . . Tobar, M. (2004). Horloges en fontaine du BNM-SYRTE: Résultats récents. In Journal De Physique IV JP Vol. 119 (pp. 287-288). FRANCE, Toulouse: EDP SCIENCES S A.
DOI Scopus2 WoS2
2004 Chambon, S. B. D., Bize, S., Marion, H., Cacciapuotti, L., Narbonneau, F., Lours, M., . . . Tobar, M. (2004). High performance flywheel source for atomic fountains and advanced metrology applications. In Iet Conference Publications (pp. 355-358). IEE.
DOI
2004 Marion, H., Bize, S., Cacciapuoti, L., Chambon, D., Dos Santos, F. P., Santarelli, G., . . . Salomon, C. (2004). First observation of Feshbach resonances at very low magnetic field in a 133Cs fountain. In Iet Conference Publications (pp. 49-55). IEE.
DOI
2004 Marion, H., Dos Santos, F. P., Chambon, D., Narbonneau, F., Abgrall, M., Maksimovic, I., . . . Salomon, C. (2004). BNM-syrte fountains: Recent results. In CPEM Digest Conference on Precision Electromagnetic Measurements (pp. 494-495). IEEE.
DOI Scopus1
2004 Bize, S., Wolf, P., Abgrall, M., Cacciapuoti, L., Clairon, A., Grünert, J., . . . Zhang, S. (2004). Cold atom clocks, precision oscillators and fundamental tests. In S. G. Karshenboim (Ed.), ASTROPHYSICS, CLOCKS AND FUNDAMENTAL CONSTANTS Vol. 648 (pp. 189-207). GERMANY, Bad Honnef: SPRINGER-VERLAG BERLIN.
WoS4
2003 Wolf, P., Bize, S., Clairon, A., Luiten, A. N., Santarelli, G., & Tobar, M. E. (2003). Tests of Lorentz Invariance using a Microwave Resonator. In Physical Review Letters Vol. 90 (pp. 4). United States: AMER PHYSICAL SOC.
DOI Scopus10 WoS137 Europe PMC17
2002 Lemonde, P., Bize, S., Sortais, Y., Abgrall, M., Zhang, S., Calonico, D., . . . Clairon, A. (2002). Cs and Rb fountains. In CPEM Digest Conference on Precision Electromagnetic Measurements (pp. 446-447). OTTAWA, CANADA: IEEE.
DOI Scopus1 WoS1
2001 Salomon, C., Sortais, Y., Bize, S., Abgrall, M., Zhang, S., Nicolas, C., . . . Chang, S. (2001). Cold atom clocks. In E. Arimondo, P. DeNatale, & M. Inguscio (Eds.), ATOMIC PHYSICS 17 Vol. 551 (pp. 23-40). ITALY, FLORENCE: AMER INST PHYSICS.
WoS8
2000 Luiten, A. N., Kovacich, R., & McFerran, J. (2000). UWA/PTB optical synthesizer: An update. In J. Hunter, & L. Johnson (Eds.), CPEM Digest Conference on Precision Electromagnetic Measurements (pp. 208-209). SYDNEY, AUSTRALIA: IEEE.
DOI
2000 Mann, A. G., Sheng, C., & Luiten, A. N. (2000). Cryogenic sapphire oscillator with exceptionally high frequency stability. In J. Hunter, & L. Johnson (Eds.), CPEM Digest Conference on Precision Electromagnetic Measurements (pp. 188-189). SYDNEY, AUSTRALIA: IEEE.
DOI Scopus6 WoS5
2000 Chang, S., Mann, A. G., & Luiten, A. N. (2000). Cryogenic sapphire oscillator with improved frequency stability. In Proceedings of the Annual IEEE International Frequency Control Symposium (pp. 475-479). MO, KANSAS CITY: IEEE.
DOI Scopus7 WoS5
2000 McFerran, J. J., & Luiten, A. N. (2000). Development of an optical frequency interval divider centred at 709 nm. In J. Hunter, & L. Johnson (Eds.), CPEM Digest Conference on Precision Electromagnetic Measurements (pp. 210-211). SYDNEY, AUSTRALIA: IEEE.
DOI
1999 Kovacich, R. P., & Luiten, A. N. (1999). Frequency stability limits of optical frequency intervals in new generation optical-to-microwave frequency chains. In Proceedings of the Annual IEEE International Frequency Control Symposium Vol. 2 (pp. 626-629).
1998 Luiten, A. N., Kovacich, R., Telle, H. R., Weiss, C. O., & Mann, A. G. (1998). UWA/PTB optical to microwave frequency chain. In T. L. Nelson (Ed.), CPEM Digest Conference on Precision Electromagnetic Measurements (pp. 395-396). WASHINGTON, D.C.: IEEE.
DOI
1998 Kovacich, R. P., Luiten, A. N., Mann, A. G., Notcutt, M., Telle, H. R., & Weiss, C. O. (1998). UWA-PTB coherent optical-to-microwave frequency chain. In Proceedings of the Annual IEEE International Frequency Control Symposium (pp. 64-72). PASADENA, CA: IEEE.
DOI Scopus1 WoS1
1998 Mann, A. G., Santarelli, G., Chang, S., Luiten, A. N., Laurent, P., Salomon, C., . . . Clairon, A. (1998). High stability atomic fountain clock using a cryogenic sapphire interrogation oscillator. In Proceedings of the Annual IEEE International Frequency Control Symposium (pp. 13-17). PASADENA, CA: IEEE.
DOI Scopus27 WoS24
1995 Luiten, A. N., Mann, A. G., McDonald, N. J., & Blair, D. G. (1995). Latest results of the U.W.A. cryogenic sapphire oscillator. In Proceedings of the Annual IEEE International Frequency Control Symposium (pp. 433-437). SAN FRANCISCO, CA: I E E E.
DOI Scopus32 WoS28
1994 LUITEN, A. N., MANN, A. G., COSTA, M. E., & BLAIR, D. G. (1994). CRYOGENIC SAPPHIRE RESONATOR-OSCILLATOR WITH EXCEPTIONAL STABILITY - AN UPDATE. In PROCEEDINGS OF THE 1994 IEEE INTERNATIONAL FREQUENCY CONTROL SYMPOSIUM (THE 48TH ANNUAL SYMPOSIUM) (pp. 441-446). BOSTON, MA: I E E E.
DOI WoS4
1994 Luiten, A. N., Mann, A. G., & Blair, D. G. (1994). Power stabilized exceptionally high stability cryogenic sapphire resonator oscillator. In CPEM Digest Conference on Precision Electromagnetic Measurements (pp. 152-153).
1993 Luiten, A. N., Mann, A. G., & Blair, D. G. (1993). Improved sapphire dielectric resonators for ultrastable oscillators. In Proceedings of the Annual Frequency Control Symposium (pp. 757-762). SALT LAKE CITY, UT: I E E E.
Scopus9 WoS5
1992 Mann, A. G., Luiten, A. N., Blair, D. G., & Buckingham, M. J. (1992). Ultra-stable cryogenic sapphire dielectric microwave resonators. In Proceedings of the Annual Frequency Control Symposium (pp. 167-171). HERSHEY, PA: I E E E.
DOI Scopus12 WoS6
1991 LUITEN, A. N., & BLAIR, D. G. (1991). SAPPHIRE CLOCKS IN VLBI RADIOASTRONOMY. In PROCEEDINGS ASTRONOMICAL SOCIETY OF AUSTRALIA Vol. 9 (pp. 171). UNIV NEW SOUTH WALES, SYDNEY, AUSTRALIA: C S I R O PUBLICATIONS.
DOI

Year Citation
- White, B., Sparkes, B., Offer, R., Hilton, A., Luiten, A., Ironside, C., . . . Sun, X. (n.d.). Towards a Compact Ytterbium Magneto Optical Trap for use in Precision Timekeeping Applications. Poster session presented at the meeting of Unknown Conference.
DOI

Year Citation
- Luiten, A., O'Connor, M., Wu, K., Tettamanzi, G., Al-Ashwal, W., Baynes, F., & Henderson-Sapir, O. (n.d.). Sapphire Clock - Defence Applications.
DOI

Year Citation
2024 Hilton, A. P., Offer, R. F., Klantsataya, E., Scholten, S. K., Hébert, N. B., Billington, C., . . . Luiten, A. N. (2024). Demonstration of a Mobile Optical Clock Ensemble at Sea.
2024 White, B., Offer, R., Hilton, A., & Luiten, A. (2024). The SWaP plot: Visualising the performance of portable atomic clocks as
a function of their size, weight and power.
2024 Ahern, E. J., Scholten, S. K., Locke, C., Bourbeau-Hebert, N., White, B., Luiten, A. N., & Perrella, C. (2024). Tailoring the Stability of a Two-Color, Two-Photon Rubidium Frequency
Standard.
2018 Hilton, A. P., Perrella, C., Luiten, A. N., & Light, P. S. (2018). Dual-colour magic-wavelength trap for suppression of light shifts in
atoms.
Competitive Research Funding

Over my career I have attracted more than $50M in research grants. I have been the recipient of three extremely competitive ARC Fellowships and Chief Investigator of the $35M ARC Centre of Excellence ‘COMBS’ awarded in 2022. The range of research sponsors is much broader than is usual for an academic thus signifying the range of my activities and the breadth of my understanding of research funding schemes. As examples, I have been granted significant funds from not only the Australian Research Council but also the UK’s Wellcome Trust, the National Institute of Standards and Technology in the USA, SA Government, DST Group, Australian Air Force, Department of Industry, Defence Industry Hub as well as conducting funded collaborative research with the National Measurement Institute, CSIRO, Chevron and a number of small to medium enterprises.

Date Project/ No. Funding Body Amount
2023-2029 ARC Centre of Excellence in Optical Microcombs for Breakthrough Science ARC CoE $7,000,000
2022-2026 Novel source of excited metastable atoms for Atom Trap Trace Analysis ARC DP $532,842
2022-2025 Developing capacity in relation to the ATTA Facility CSIRO $1,500,000
2022-2023 Development of an Engineering Model o f space clock SmartSAT CRC $1,000,000
2022-2024 Digital Clock NGTF Next Generation Technology Fund Quantum Technologies $783,432
2022-2025 Underwater Magnetometry NGTF Magnetometry $966,210
2022-2023 RIMPAC DSTG $3,454,656
2022-2023 An ATTA Machine for Hydrology AuScope NCRIS pilot Funding Program $510,000
2000-2022 Running Hot: Increasing the Availability of World-Class Precision Timing ARC Linkage $300,000
2021 Compact Clock for Small Satellite Applications SmartSAT $299,330
2021-2023 Development and field testing portable atomic clocks Phase I DSTG StarShot Funding $5,239,824
2020-2022 Development of Satellite Optical Systems for Earth Observation Science CSIRO Space Technology Future Science Platform $890,000
2020-2022 Prototyping a Low-Noise Scalar Magnetometer CSIRO SIEF Ross Metcalf STEM+ Business Fellowship Program $590,987
2019-2020 Commercialization of an ultra-stable signal source SA State Government RCSF Stream 2 Bootstrap Pathway $125,000
2022 Developing high-accuracy and high-sensitivity magnetometers for the real-world DST Next Generation Technology Fund Quantum Technologies $210,000
2022 Developing the Technology for Compact Quantum Clocks DST Next Generation Technology Fund Quantum Technologies $210,000
2020 Multi-kilohertz laser for attosecond and ultrafast science ARC LIEF $744,000
2020-2021 Development of Clocks for GPS denied maritime environments DST Next Generation Technology Fund Quantum Technologies $887,155
2019-2021 Delivering an Australian Portable Quantum Optical Clock DST Next Generation Technology Fund Quantum Technologies $1M
2019-2021 Upgrade of Environmental Tracer Detection Facility CSIRO $500k
2019-2020 Packaging a Quantum Magnetometer Array for Anti-Submarine Warfare DST Next Generation Technology Fund Quantum Technologies $456k
2017 Acoustic Levitation Facility for High Pressure Multiphase Systems Research ARC, Linkage Infrastructure, Equipment and Facilities (LIEF) $193K
2017-2018 Establishment of 3D Metal Printing Facility (AMARN) SA State Government $1.3M
2016-2017 Ultra-High Quality Signal Generation and Signal Distribution for Over-the-Horizon Radar DST Group - CTD $1.85M
2016-19 Developing the Cryogenic Sapphire Oscillator – various grants DST Group $1.9M
2016-2017 Next-Generation Photonic Magnetic Sensing for Geophysical Exploration ARI, Commercialization Acceleration Scheme $45K
2016 Australian National Facility for Noble-Gas Radio-Isotope Measurements ARC, Linkage Infrastructure, Equipment and Facilities (LIEF)

$600K
2015-2016 SA Photonics Roadmap Department of State Development $200K
2015-2016 Support for ARC Centre of Excellence Department of State Development, PRIF, Collaboration Pathways $150K
2015 European Fellowship Go8 $20K
2014-2016 Magnetometry DST Group $150K
2014 Compact Optical Frequency Standard ARI, Commercialization Acceleration Scheme $50K
2014 Compact Optical Frequency Standard Denis Harwood Scheme $25K
2014-2015 Untangling complex molecular spectra with an optical frequency comb ARC, Linkage Project $369K
2014-2016 Disease Diagnosis through Breath Analysis PRIF, Catalyst Grant $50K
2014-2016 The Ultimate Laser Source PRIF, International Research Grant $258K
2013-2015 Foundation technology for quantum measurement, sensing and computing ARC, Linkage Project $410K
2014-2015 Ultra-stable optical frequency references for Earth and Space applications DAAD Go8 Australia –Germany Joint Research Cooperation Scheme $20K
2013-2015 Ultra-high spectral purity lasers for tests of relativity and atomic clocks ARC, Discovery Project $850K
2013 High performance clock facility for new-generation radar, imaging, measurement and radio-astronomy applications ARC, Linkage Infrastructure, Equipment and Facilities (LIEF) $300K
2012-2015 Thermometry at the double shot-noise limit National Institute of Standards and Technology (NIST), Grant $150K
2012-2015 Avoiding cryogenic solids formation in liquefied natural gas production ARC, Linkage Project $823K
2012 Quantum instrumentation Research Collaboration Award $17K
2012 Workshop grant UQ-UWA Bilateral Research Collaboration $19K
2012 A Raman facility for advancing research supporting Australia's natural gas, oil, coal and minerals industries ARC, Linkage Infrastructure, Equipment and Facilities (LIEF) $275K
2011-2013 Creating a national time and frequency network ARC, Linkage Project $600K
2011-2013 Ground station facility for membership of the atomic clock ensemble in space mission ARC, Linkage Infrastructure, Equipment and Facilities (LIEF) $1,230K
2011 Collaborative grant for theory and experimental interaction UWA-UQ BCRF $30K
2011-2012 Medical laser magnetometry Wellcome Trust £354K
2010-2013 The quest for ultimate measurement precision ARC, Future Fellowship $789K
2010-2012 Redefining temperature ARC, Discovery Project $570K
2008-2010 Exploring synergies between frontier microphotonics and advanced time and frequency technology ARC, Discovery Project $480K
2006-2008 Developing new clocks for Australia: testing the assumptions of modern physics ARC, Discovery Project $630K
2005-2007 Micro-engineered optical fibre clocks ARC, Linkage International $22K
2005 A facility for ultra-precise time and frequency transfer: creating an Australian user group for the ESA atomic clock ensemble in space mission ARC, Linkage Infrastructure, Equipment and Facilities (LIEF) $242K
2004-2006

Development of optical clocks and their applications to precision frequency measurements and time keeping

 ARC, Linkage International $36K
2003-2007 Creation of new precision optical and microwave technologies and their application to testing the fundamental of physics ARC, Discovery Project $1,846K
2002 A transportable optical frequency counter, synthesizer and super-continuum generator ARC, Linkage Infrastructure, Equipment and Facilities (LIEF) $530K
2000-2002 Frequency chain and optical clock ARC, Large Grant $272K
2000-2005 Towards an optical clock ARC, ARF Fellowship $345K
1998 Optical frequency synthesis and counting DIST Workshop Support $17K
1997-1999 Measuring the frequency of light ARC APD Fellowship $157K

 

Current Teaching

 

 

Date Role Research Topic Program Degree Type Student Load Student Name
2025 Principal Supervisor Improving the Performance of a Two Photon Rubidium Optical Atomic Clock Doctor of Philosophy Doctorate Full Time Mr William Hayes Morrow
2025 Co-Supervisor Improving the Performance of a Two Photon Rubidium Optical Atomic Clock Doctor of Philosophy Doctorate Full Time Mr William Hayes Morrow
2024 Principal Supervisor A low SWaP Two-Photon Rubidium Optical Atomic Clock for alternate GNSS Doctor of Philosophy Doctorate Full Time Mr Lachlan Max Pointon
2024 Principal Supervisor A low SWaP Two-Photon Rubidium Optical Atomic Clock for alternate GNSS Doctor of Philosophy Doctorate Full Time Mr Lachlan Max Pointon
2020 Co-Supervisor Using an Optical Frequency Comb to Perform Gas Spectroscopy - Master Part Time Mr Joshua Whitaker-Lockwood

Date Role Research Topic Program Degree Type Student Load Student Name
2021 - 2025 Co-Supervisor Quantum Clock Synchronisation Using Entangled Photons Doctor of Philosophy Doctorate Full Time Ms Sabrina Slimani
2020 - 2025 Co-Supervisor Developing High-Sensitivity Techniques for Frequency Comb Spectroscopy Master of Philosophy Master Part Time Mr Joshua Whitaker-Lockwood
2018 - 2024 Co-Supervisor Applying Fibre Bragg Grating Fabry-Perot Resonators for Filtering and Sensing Applications Doctor of Philosophy Doctorate Part Time Mr Jonathan Peter Hedger
2018 - 2025 Co-Supervisor Nonlinear Light-Atom Interactions in Hollow-Core Fibre for Quantum Information Processing Doctor of Philosophy Doctorate Full Time Mr Jed Anthony Rowland
2017 - 2025 Principal Supervisor Ultrahigh-Resolution Molecular Spectroscopy for Transdisciplinary Applications Doctor of Philosophy Doctorate Full Time Mr Faisal Karim
2015 - 2020 Principal Supervisor Towards Purely Laser Based Generation and Trapping of Metastable Krypton Doctor of Philosophy Doctorate Full Time Mr Milad Abou Dakka
2015 - 2020 Principal Supervisor Nonlinear Magneto-Optical Rotation in Rubidium Vapour Doctor of Philosophy Doctorate Full Time Nathanial Morgan Wilson
2015 - 2019 Principal Supervisor High-Resolution Molecular Spectroscopy with an Optical Frequency Comb Doctor of Philosophy Doctorate Full Time Dr Sarah Katherine Scholten
2015 - 2020 Co-Supervisor Cold-Atom Loading of Hollow-Core Photonic Crystal Fibre for Quantum Technologies Doctor of Philosophy Doctorate Full Time Dr Ashby Hilton

Date Role Research Topic Location Program Supervision Type Student Load Student Name
2023 - ongoing Co-Supervisor Two photon rubidium clock with optical Frequency comb The University of Adelaide - Honours Full Time Lachlan Pointon
2020 - ongoing Co-Supervisor Improving concentration sensitivity for broadband gas measurements The University of Adelaide - Master Full Time Josh Whitaker-Lockwood
2018 - ongoing Co-Supervisor Light-atom interactions in a hollow-core fibre for applications in quantum technologies The University of Adelaide - Doctorate Full Time Jed Rowland
2017 - ongoing Principal Supervisor Ultrahigh-resolution molecular spectroscopy for transdisciplinary applications The University of Adelaide - Doctorate - Faisal Karim
2017 - 2023 Co-Supervisor waveguide-atom interactions IPAS - Doctorate Full Time Hannes Griesser

Date Role Committee Institution Country
2022 - ongoing Advisory Board Member Federal Ministerial Advisory Committee National Quantum Advisory Committee Australia
2019 - 2022 Member SA Premier's Science and Innovation Council SA Premier’s Science and Innovation Council Australia
2017 - ongoing Member National Committees for Science | Australian Academy of Science Australian Academy of Science Australia
2015 - 2016 Member Innovation Voucher Program Government of South Australia Australia
2015 - 2016 Member SA Future Photonics Industry Roadmap Government of South Australia Australia
2015 - 2015 Co-Chair Joint Program Chair Australian and New Zealand Conference on Optics and Photonics (ANZCOP) Australia
2011 - 2011 Chair Sub-committee Chair Conference on Lasers and Electro-Optics and International Quantum Electronics Conference Australia
2009 - 2016 Member Technical Program Committee International Frequency Control Symposium -
2009 - 2016 Member Technical Program Committee European Frequency Forum -

Date Role Membership Country
2015 - ongoing Member Commission on Symbols, Units, Nomenclature, Atomic Masses and Fundamental Constants (SUNAMCO) of the International Union of Pure and Applied Physics -
2006 - 2010 Member European Science Foundation Grant Panel for Euroquasar: Quantum Standards and Metrology -

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