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Dr Yinlan Ruan

Yinlan Ruan
Research Fellow
School of Physical Sciences
Faculty of Sciences

Dr. Yinlan Ruan gained her PhD from the Australian National University, Australia in 2006 with her thesis focusing on low loss chalcogenide planar waveguide devices for all-optical processing. After her PhD, she joined Center of Excellence in Photonics in University of Adelaide. She firstly worked in fluoride glass development, then transferred to protein sensing. She is currently working in an ARC granted project as an Australian Postdoctoral Fellow (APD). This project is to model, fabricate and characterise light enhancement within nano size core hole in soft glass microstructured fibers and explore its applications in nonlinearity, high resolution imaging and nanolithography. At the same time, she is also working in excitaiton of surface plasmon resonace with high index nano fibers for applicaitons of imaging and optical manipulation.

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Dr Yinlan Ruan

Dr. Yinlan Ruan gained her PhD from the Australian National University, Australia in 2006 with her thesis focusing on low loss chalcogenide planar waveguide devices for all-optical processing. After her PhD, she joined Center of Excellence in Photonics in University of Adelaide. She firstly worked in fluoride glass development, then transferred to protein sensing. She is currently working in an ARC granted project as an Australian Postdoctoral Fellow (APD). This project is to model, fabricate and characterise light enhancement within nano size core hole in soft glass microstructured fibers and explore its applications in nonlinearity, high resolution imaging and nanolithography. At the same time, she is also working in excitaiton of surface plasmon resonace with high index nano fibers for applicaitons of imaging and optical manipulation.

Research Interests
  • Fiber/cavities based biosensing;
  • Color centers in diamonds;
  • Fiber based single photon sources;
  • Fiber magnetometry based on nitrogen vacancy centers;
  • Micro- and nano structured fibers based on silica and soft glasses; 
  • Surface plasmon resonace;
  • Surface-enhanced Raman scattering and field enhanced flurescence;
  • Detection of environmental pollutants and food safety.

Appointments

Date Position Institution name
2016 - 2017 Research Fellow University of Adelaide, Adelaide
2012 - 2016 Research Fellow University of Adelaide, Adelaide
2009 - 2009 Visiting Research Fellow Clemson University, Clemson
2006 - 2008 Research Fellow University of Adelaide, Adelaide
2005 - 2006 Visiting Reserach Fellow Korea Advanced Institute of Science and Technology, Daejeon
2005 - 2006 Postdoctoral Research Fellow University of Adelaide, Adelaide
2001 - 2005 Doctoral Researcher Australian National University, Canberra
2000 - 2001 Group Leader Accelink Technologies Co.,
1998 - 2000 Group Leader and Researcher Wuhan Research Institute of Posts and Telecommunications
1996 - 1998 Researcher Wuhan Resarch Institute of Posts and Telecommunications

Language Competencies

Language Competency
Chinese (Mandarin) Can read, write, speak, understand spoken and peer review
English Can read, write, speak, understand spoken and peer review

Education

Date Institution name Country Title
2006 Australian National University, Canberra Australia PhD of Physical Science and Engineering
1996 Huazhong University of Science and Technology, Wuhan China Master of Optoelectronics Engineering
1991 Huazhong University of Science and Technology, Wuhan China Bachelor of Electronic Materials Engineering

Journals

Year Citation
2018 He, X., Fang, J., Ruan, Y., Wang, X., Sun, Y., Wu, N., . . . Huang, L. (2018). Structures, bioactivities and future prospective of polysaccharides from Morus alba (white mulberry): A review. Food Chemistry, 245, 899-910.
DOI Scopus1
2017 Jiang, Y., He, T., Chen, Y., Ruan, Y., Zhou, Y., Tang, B., . . . Tang, Y. (2017). Quantitative evaluation and: In vivo visualization of mercury ion bioaccumulation in rotifers by novel aggregation-induced emission fluorogen nanoparticles. Environmental Science: Nano, 4(11), 2186-2192.
DOI
2017 Ruan, Y., Qiao, W., Lei, T., Ji, H., Xie, Z., Yang, C., & Yuan, X. (2017). Transmission of orbital angular momentum modes in grapefruit-type microstructure fibre. Chinese Journal of Lasers B, 44(4), 1-6.
DOI
2016 Ruan, Y., Ding, L., Duan, J., Ebendorff-Heidepriem, H., & Monro, T. (2016). Integration of conductive reduced graphene oxide into microstructured optical fibres for optoelectronics applications. Scientific Reports, 6(1), 21682-1-21682-8.
DOI Scopus3 WoS3 Europe PMC1
2016 Han, M., Chen, M., Ebendorff-Heidepriem, H., Fang, C., Qin, A., Zhang, H., . . . Ruan, Y. (2016). An optical fibre sensor for remotely detecting water traces in organic solvents. RSC Advances, 6(85), 82186-82190.
DOI Scopus3 WoS3
2016 Ruan, S., Chen, Y., Zhang, P., Pan, X., Fang, C., Qin, A., . . . Ruan, Y. (2016). Online remote monitoring of explosives by optical fibres. RSC Advances, 6(105), 103324-103327.
DOI
2016 Ji, H., Ruan, Y., Afshar Vahid, S., Ebendorff-Heidepriem, H., & Monro, T. (2016). Suspended core fibers for the transmission of cylindrical vector modes. Journal of Lightwave Technology, 34(24), 5620-5626.
DOI
2015 Ruan, Y., Ji, H., Johnson, B., Ohshima, T., Greentree, A., Gibson, B., . . . Ebendorff-Heidepriem, H. (2015). Nanodiamond in tellurite glass Part II: practical nanodiamond-doped fibers. Optical Materials Express, 5(1), 73-87.
DOI Scopus11 WoS8
2015 Ruan, Y., Gibson, B., Lau, D., Greentree, A., Ji, H., Ebendorff-Heidepriem, H., . . . Monro, T. (2015). Atom-Photon coupling from nitrogen-vacancy centres embedded in tellurite microspheres. Scientific Reports, 5(1), 11486-1-11486-7.
DOI Scopus3 WoS2
2015 Fang, C., Xie, Y., Johnston, M., Ruan, Y., Tang, B., Peng, Q., & Tang, Y. (2015). SERS and NMR studies of typical aggregation-induced emission molecules. Journal of Physical Chemistry A, 119(29), 8049-8054.
DOI Scopus7 WoS6 Europe PMC3
2014 Ruan, Y., Boyd, K., Ji, H., Ebendorff-Heidepriem, H., Munch, J., & Monro, T. (2014). Tellurite microspheres for nanoparticle sensing and novel light sources. Optics Express, 22(10), 11995-12006.
DOI Scopus19 WoS16 Europe PMC7
2014 Ebendorff-Heidepriem, H., Ruan, Y., Ji, H., Greentree, A., Gibson, B., & Monro, T. (2014). Nanodiamond in tellurite glass Part I: origin of loss in nanodiamond-doped glass. Optical Materials Express, 4(12), 2608-2620.
DOI Scopus12 WoS8
2013 Zhu, X., Li, S., Du, Y., Han, Y., Zhang, W., Ruan, Y., . . . Monro, T. (2013). High stability supercontinuum generation in lead silicate SF57 photonic crystal fibers. Chinese Physics B, 22(1), 1-4.
DOI Scopus5 WoS4
2011 Ruan, Y., Afshar Vahid, S., & Monro, T. (2011). Efficient excitation of surface plasmons in metal nanorods using large longitudinal component of high index nano fibers. Optics Express, 19(14), 13464-13479.
DOI Scopus1
2011 Ruan, Y., Afshar Vahid, S., & Monro, T. (2011). Light enhancement within nanoholes in high index contrast nanowires. IEEE Photonics Journal, 3(1), 130-139.
DOI Scopus11 WoS11
2010 Ruan, Y., Ebendorff-Heidepriem, H., Afshar Vahid, S., & Monro, T. (2010). Light confinement within nanoholes in nanostructured optical fibers. Optics Express, 18(25), 26018-26026.
DOI Scopus32 WoS20 Europe PMC1
2008 Ruan, Y., Foo, H., Warren-Smith, S., Hoffmann, P., Moore, R., Ebendorff-Heidepriem, H., & Monro, T. (2008). Antibody immobilization within glass microstructured fibers: A route to sensitive and selective biosensors. Optics Express, 16(22), 18514-18523.
DOI Scopus58 WoS48 Europe PMC20
2008 Afshar Vahid, S., Ruan, Y., Warren-Smith, S., & Monro, T. (2008). Enhanced fluorescence sensing using microstructured optical fibers: a comparison of forward and backward collection modes. Optics Letters, 33(13), 1473-1475.
DOI Scopus48 WoS33 Europe PMC13
2008 Freeman, D., Grillet, C., Lee, M., Smith, C., Ruan, Y., Rode, A., . . . Eggleton, B. (2008). Chalcogenide glass photonic crystals. Photonics and Nanostructures: fundamentals and applications, 6(1), 3-11.
DOI Scopus40 WoS40
2007 Smith, C., Wu, D., Lee, M., Monat, C., Tomljenovic-Hanic, S., Grillet, C., . . . Lee, Y. (2007). Microfluidic photonic crystal double heterostructures. Applied Physics Letters, 91(12), 121103-01-121103-3.
DOI Scopus66
2007 Ruan, Y., Schartner, E., Ebendorff-Heidepriem, H., Hoffmann, P., & Monro, T. (2007). Detection of quantum-dot labeled proteins using soft glass microstructured optical fibers. Optics Express, 15(26), 17819-17826.
DOI Scopus72 WoS60 Europe PMC15
2007 Lee, M., Grillet, C., Smith, C., Moss, D., Eggleton, B., Freeman, D., . . . Lee, Y. (2007). Photosensitive post tuning of chalcogenide photonic crystal waveguides. Optics Express, 15(3), 1277-1285.
DOI WoS54 Europe PMC14
2007 Ruan, Y., Kim, M., Lee, Y., Luther-Davies, B., & Rode, A. (2007). Fabrication of high-Q chalcogenide photonic crystal resonators by e-beam lithography. Applied Physics Letters, 90(7), 071102-1-071102-3.
DOI
2006 Ta'eed, V., Shokooh-Saremi, M., Fu, L., Littler, I., Moss, D., Rochette, M., . . . Luther-Davies, B. (2006). Self-phase modulation-based integrated optical regeneration in chalcogenide waveguides. IEEE Journal of Selected Topics in Quantum Electronics, 12(3), 360-370.
DOI
2006 Shokooh-Saremi, M., Ta'eed, V., Baker, N., Littler, I., Moss, D., Eggleton, B., . . . Luther-Davies, B. (2006). High-performance Bragg gratings in chalcogenide rib waveguides written with a modified Sagnac interferometer. Journal of the Optical Society of America B-Optical Physics, 23(7), 1323-1331.
DOI
2005 Li, W., Ruan, Y., Luther-Davies, B., Rode, A., & Boswell, R. (2005). Dry-etch of As₂S₃ thin films for optical waveguide fabrication. Journal of Vacuum Science & Technology A-Vacuum Surfaces and Films, 23(6), 1626-1632.
DOI
2005 Shokooh-Saremi, M., Ta'eed, V., Littler, I., Moss, D., Eggleton, B., & Ruan, Y. (2005). Ultra-Strong and well-apodized Bragg gratings in chalcogenide rib waveguides. Electronics Letters, 41(13), 738-739.
DOI
2005 Ta'eed, M., Shokooh-Saremi, M., Fu, L., Moss, D., Rochette, M., Littler, I., . . . Luther-Davies, B. (2005). Integrated all-optical pulse regenerator in chalcogenide waveguides. Optics Letters, 30(21), 2900-2902.
DOI
2005 Ruan, Y., Jarvis, R., Rode, A., Madden, S., & Luther-Davies, B. (2005). Wavelength dispersion of Verdet constants in chalcogenide glasses for magneto-optical waveguide devices. Optics Communications, 252(1-3), 39-45.
DOI
2005 Ruan, Y., Luther-Davies, B., Li, W., Rode, A., Kolev, V., & Madden, S. (2005). Large phase shifts in As₂S₃ waveguides for all-optical processing devices. Optics Letters, 30(19), 2605-2607.
DOI
2004 Ruan, Y., Li, W., Jarvis, R., Madsen, N., Rode, A., & Luther-Davies, B. (2004). Fabrication and characterization of low loss rib chalcogenide waveguides made by dry etching. Optics Express, 12(21), 5140-5145.
DOI
2003 Zakery, A., Ruan, Y., Rode, A., Samoc, M., & Luther-Davies, B. (2003). Low-loss waveguides in ultrafast laser-deposited As₂S₃ chalcogenide films. Journal of the Optical Society of America B-Optical Physics, 20(9), 1844-1852.
DOI
2003 Ruan, Y., Luther-Davies, B., Li, W., Rode, A., & Samoc, M. (2003). Nonlinear integrated optical waveguides in chalcogenide glasses. Guangxue Xuebao, 23(1), 363-364.
1999 Ruan, Y., & Hu, H. (1999). Study of temperature sensitivity of fiber gratings. Journal- China Institute of Communications.
1997 Ruan, Y., & Liu, Y. (1997). A temperature insensitive fiber grating. Chinese Journal of Lasers B, 895-898.
1997 Ruan, Y., & Liu, Y. (1997). Analysis of grating production with phase masks. Chinese Journal of Quantum Electronics, 14(5), 458-463.
Ruan, Y., Simpson, D. A., Jeske, J., Ebendorff-Heidepriem, H., Lau, D. W. M., Ji, H., . . . Gibson, B. C. (n.d.). Remote Nanodiamond Magnetometry.

Conference Papers

Year Citation
2017 Wang, G., Ruan, Y., Jia, P., Gui, Z., Zhang, P., Wang, C., . . . Wang, Y. (2017). Fabrication and characterization of an egg-shaped hollow fiber microbubble. In Proceedings of SPIE - The International Society for Optical Engineering Vol. 10323 (pp. 4 pages). SOUTH KOREA: IEEE.
DOI
2017 Riesen, N., Badek, K., Kasnn, L., Ruan, Y., Monro, T., & Riesen, H. (2017). Multilevel optical data storage using samarium-doped matlockite nanocrystals. In Proceedings of the 30th Annual Conference of the IEEE Photonics Society (IPC 2017) Vol. 2017-January (pp. 599-600). Piscataway, NJ: IEEE.
DOI
2016 Zhang, P., Ruan, S., Zhang, R., Pullen, B., Zhang, X., Purdey, M., . . . Ruan, Y. (2016). Nitric oxide sensitive optic fiber sensor based on immobilized ruthenium(II) complex. In Optics InfoBase Conference Papers Vol. Part F37-APOS 2016 (pp. 1-3). Online: OSA Publishing.
DOI
2016 Ruan, S., Ebendorff-Heidepriem, H., & Ruan, Y. (2016). Optical fiber sensor for the detection of mercury based on immobilized fluorophore. In Optics InfoBase Conference Papers Vol. Part F37-APOS 2016 (pp. 1-3). Online: OSA Publishing.
DOI
2015 Ji, H., Ruan, Y., Ebendoff-Heidepriem, H., Zhang, W., Vahid, S., & Monro, T. (2015). Microstructured suspended core fiber for cylindrical vector beams propagation. In Conference on Lasers and Electro-Optics Europe - Technical Digest Vol. 2015-August (pp. 2267). San Jose, CA: IEEE.
DOI Scopus1
2015 Ebendorff-Heidepriem, H., Ruan, Y., Ji, H., Johnson, B., Ohshima, T., Greentree, A., . . . Monro, T. (2015). Low-loss tellurite fibers with embedded nanodiamonds. In Conference on Lasers and Electro-Optics Europe - Technical Digest Vol. 2015-August (pp. 2267). San Jose, CA: IEEE.
DOI
2015 Ruan, Y., Gibson, B., Lau, D., Greentree, A., Ji, H., Ebendorff-Heidepriem, H., . . . Monro, T. (2015). Atom-photon coupling from nitrogen-vacancy centers embedded in tellurite microspheres. In Conference on Lasers and Electro-Optics Europe - Technical Digest Vol. 2015-August (pp. 1551p). San Jose, CA: IEEE.
DOI
2014 Ebendorff-Heidepriem, H., Ruan, Y., Ji, H., Gibson, B., & Monro, T. (2014). Fabrication of low-loss nanodiamond doped tellurite fibres. In International Conference on Nanoscience and Nanotechnology. Adelaide, South Australia.
2013 Ruan, Y., Boyd, K., Ji, H., Ebendorff-Heidepriem, H., Munch, J., & Monro, T. (2013). Upconversion lasing for index sensing and strong amplitude modulation of WGMs in Er-Yb co-doped tellurite spheres. In Proceedings of CLEO 2013: Science and Innovations (pp. 1-5). United States: Optical Society OSA.
DOI
2011 Ruan, Y., & Monro, T. (2011). Direct excitation of surface plasmon resonance using radically polarized mode of silicon nano fibers. In Proceedings of the international Quantum Electronics Conference (pp. 399-401). Sydney, Australia: Optical Society of America.
DOI Scopus1
2011 Ruan, Y., Afshar Vahid, S., & Monro, T. (2011). Trapping forces by radially polarised mode from high index nano fibres. In Proceedings of FiO 2011 - the 95th OSA Annual Meeting and LS XXVII - the 26th annual meeting of the American Physical Society Vol. USA 16-20 October 2011 (pp. pp.www1-pp.www2). California, USA.
2009 Monro, T., Afshar Vahid, S., Ebendorff-Heidepriem, H., Zhang, W., & Ruan, Y. (2009). Emerging optical fibers: new fiber materials and structures. In Proceedings of CLEO IQEC 09 (pp. 1-2). CD-ROM: MIT.
Scopus1
2009 Ruan, Y., Ebendorff-Heidepriem, H., Afshar Vahid, S., Warren-Smith, S., & Monro, T. (2009). Advances in chemical and biological sensing using emerging soft glass optical fibers. In Proceedings of Frontiers in Optics 2009 (pp. 1-2). CD-ROM: Technical Digest.
2009 Ruan, Y., Ebendorff-Heidepriem, H., & Monro, T. (2009). Exploration of light enhancement in subwavelength holes within soft glass microstctructured fibres. In Proceedings of the Nanophotonics Down Under 2009 (pp. 155-156). CD-ROM: Nature Photonics Group.
2009 Ruan, Y., Ebendorff-Heidepriem, H., & Monro, T. (2009). Subwavelength soft glass fibres with extremely small hole size for field enhancement. In Proceedings of the ACOLS ACOFT 09 Conference (pp. 30-31). CDROM: Australian Optical Society.
2009 Ebendorff-Heidepriem, H., Afshar Vahid, S., Warren-Smith, S., Zhang, W., Ruan, Y., Atakaramians, S., & Monro, T. (2009). Fibres with subwavelength features: Fabrication and novel guidance properties. In Proceedings of the ACOLS ACOFT 09 Conference (pp. 28-29). CDROM: The Australian Optical Society.
2008 Afshar Vahid, S., Monro, T., Ebendorff-Heidepriem, H., Ruan, Y., & Warren-Smith, S. (2008). Highly efficient fluorescence sensing using microstructured optical fibres: general model and experiment. In Proceedings of SPIE, 2008; 7004 - Article number 70042Q Vol. 7004 (pp. 1-4). USA: SPIE.
DOI
2008 Monro, T., Ruan, Y., Ebendorff-Heidepriem, H., Foo, H., Hoffmann, P., & Moore, R. (2008). Antibody immobilization within glass microstructured fibers: a route to sensitive and selective biosensors. In D. Sampson, S. Collins, K. Oh, & R. Yamauchi (Eds.), Proceedings of SPIE 7004 Vol. 7004 (pp. 70046Q-1-70046Q-4). Perth, W. Aust.: Society of Photo-Optical Instrumentation Engineers.
DOI Scopus2 WoS1
2007 Schartner, E., Ruan, Y., Hoffmann, P., & Monro, T. (2007). An optical fibre protein sensor. In Proceedings of COIN ACOFT (pp. 1-4). Australia: IEEE.
DOI Scopus2
2007 Smith, C., Grillet, C., Magi, E., Ruan, Y., Freeman, D., Luther-Davies, B., . . . Eggleton, B. (2007). 2D Photonic crystals in chalcogenide glass. In Proceedings of Progress in Electromagnetics Research Symposium (PIERS) 2007 (pp. 1327-1330). Online: The Electromagnetics Academy.
2007 Grillet, C., Smith, C., Tomljenovic-Hanic, S., Magi, E., Ruan, Y., Freeman, D., . . . Eggleton, B. (2007). 2D nonlinear photonic crystals nanocavities in chalcogenide for all-optical processing. In Proceedings of Progress in Electromagnetics Research Symposium (PIERS) 2007 Vol. 3 (pp. 308-310). Online: The Electromagnetics Academy.
DOI
2007 Lee, M., Grillet, C., Smith, C., Tomljenovic-Hanic, S., Moss, D., Eggleton, B., . . . Lee, Y. H. (2007). Photosensitive post-tuning of chalcogenide photonic crystal waveguides. In Joint International Conference on Optical Internet and the 32nd Australian Conference on Optical Fiber Technology, June 24-27, 2007, Melbourne, Australia (pp. 248-250). Online: IEEE.
DOI
2006 Luther-Davies, B., Madden, S., Choi, D. Y., Wang, R. P., Rode, A., Prasad, A., . . . Ruan, Y. (2006). Chalcogenide Glasses for All-optical Processing. In Proceedings of the 2006 International Conference on Photonics in Switching, Heraklion, Greece, October 16-18, 2006 (pp. 158-160). Online: IEEE.
DOI
2006 Moss, D., Ta'eed, V., Grillet, C., Shokooh-Saremi, M., Fu, L., Rochette, M., . . . Luther-Davies, B. (2006). Photonic integrated circuits in chalcogenide glass for all-optical signal processing. In Optoelectronic integrated circuits VIII : 23-25 January, 2006, San Jose, California, USA / Louay A. Eldada, El-Hang Lee, chairs/editors ; sponsored and published by SPIE--the International Society for Optical Engineering (pp. 12409-12420). Bellingham, Washington: SPIE.
DOI
2005 Jarvis, R., Ruan, Y., Rode, A., & Luther-Davies, B. (2005). Verdet constants in chalcogenide glasses. In Proceedings of 16th National Congress of the Australian Institute of Physics, 1-4 February 2005 (pp. 171-174). Canberra, Australia: Australian Institute of Physics.
2005 Shokooh-Saremi, M., Ta'eed, V., Littler, I., Moss, D., Eggleton, B., Ruan, Y., & Luther-Davies, B. (2005). Phase-shifted resonance Bragg gratings in chalcogenide rib waveguides. In OSA Topical Meeting on Bragg Gratings, Poling and Photosensitivity (BGPP), 4-8 July 2005.. Sydney, Australia.
2005 Ruan, Y., Luther-Davies, B., Rode, A., Kolev, V., & Krolikowski, W. (2005). All-optical directional coupler switching in chalcogenide glass. In 2005 IEEE LEOS annual meeting conference proceedings (LEOS) : Sydney, Australia, 22-28 October, 2005 / IEEE (pp. 592-593). Piscataway, N.J.: IEEE Operations Center.
DOI
2005 Shokooh-Saremi, M., Ta'eed, V., Baker, N., Littler, I., Moss, D., Eggleton, B., . . . Luther-Davies, B. (2005). High performance Bragg gratings in chalcogenide glass rib waveguides written with a modified Sagnac interferometer: fabrication and characterization. In 2005 IEEE LEOS annual meeting conference proceedings (LEOS) : Sydney, Australia, 22-28 October, 2005 / IEEE (pp. 590-591). Piscataway, N.J: IEEE Operations Center.
DOI
2005 Ta'eed, V., Shokooh-Saremi, M., Fu, L., Moss, D., Rochette, M., Littler, I., . . . Luther-Davies, B. (2005). Integrated all-optical chalcogenide waveguide pulse regenerator: experiment and modeling. In 2005 IEEE LEOS annual meeting conference proceedings (LEOS) : Sydney, Australia, 22-28 October, 2005 / IEEE (pp. 817-818). Piscataway, N.J.: IEEE Operations Center.
DOI
2004 Luther-Davies, B., Freeman, D., Ruan, Y., Madsen, N., Madden, S., Jarvis, R., . . . Samoc, M. (2004). Chalcogenide glass photonic devices. In 2004 IEEE LEOS Annual Meeting : conference proceedings : Westin Rio Mar Beach, Rio Grande, Puerto Rico, 8-9 November, 2004, Monday-Tuesday / IEEE , IEEE LEOS--Lasers & Electro-Optics Society (pp. 921-922). Piscataway, N.J.: IEEE.
DOI
2004 Jarvis, R., Ruan, Y., Madsen, N., Rode, A., & Luther-Davies, B. (2004). Characterisation of chalcogenide glass for magneto-optic waveguides. In Proceedings of 29th Australian Conference on Optical Fiber Technology (ACOFT), 5-7 July, 2004.. Canberra, Australia.
2004 Freeman, D., Ruan, Y., Madsen, N., Madden, S., Jarvis, R., Rode, A., . . . Luther-Davies, B. (2004). Nanophotonic structures fabricated in chalcogenide glass films by focused ion beam milling. In Australian Conference on Optical Fiber Technology, 5-8 July, 2004. Canberra, Australia.
2004 Ruan, Y., Li, W., Jarvis, R., Madsen, N., Rode, A., & Luther-Davies, B. (2004). Fabrication and characterization of ridge chalcogenide waveguides. In Proceedings of the Australian Conference on Optical. Fibre Technology (ACOFT 2004) 5-8 July 2004.. Canberra, Australia.
2004 Ruan, Y., Li, W., Luther-Davies, B., & Rode, A. (2004). Low loss ridge chalcogenide waveguide made by plasma etching and observed strong self-phase modulation. In 30th European Conference on Optical Communication (ECOC 2004), Paper no. We4.P.041, 5-9 Steptember 2004.. Stockholm, Sweden.
2003 Luther-Davies, B., Kolev, V., Lederer, M., Ruan, Y., Samoc, M., Jarvis, R., . . . Duering, M. (2003). Ultrafast pulsed laser deposition of chalcogenide glass films for low-loss optical waveguides. In Materials Research Society Symposium Proceedings, 22-23 April, 2003 (pp. 131-142). America: Materials Research Society.
2002 Ruan, Y., Luther-Davies, B., & Samoc, M. (2002). Optical nonlinearity of chalcogenide glasses for photonic devices. In Fibre Technology (ACOFT 2002) Australian Institute of Physics 8-11 July 2002 (pp. 41-43). Sydney, Australia: Photonics Institute.

Conference Items

Patents

Year Citation
2016 Monro, T., Lancaster, D., Fuerbach, A., Afshar Vahid, S., Ebendorff-Heidepriem, H., Warren-Smith, S., & Ruan, Y. (2016). 08772697.2, Optical Fiber Sensor. France.
2014 Monro, T., Lancaster, D., Fuerbach, A., Afshar Vahid, S., Ebendorff-Heidepriem, H., Warren-Smith, S., & Ruan, Y. (2014). 2008280830, Optical Fiber Sensor. Australia.
2001 Ruan, Y. (2001). 002290790.0, Optical Circulator. China.
Research Grants
Funding Body Funding Scheme Project Amount Date Investigators
IPAS Pilot Project   $10,000 2017  
SA Government Photonics Crystal program   $45,000 2016  
IPAS Pilot Project   $18,000 2016  
CNBP Equipment grant   $38,000 2015  
  Interdisciplinary Research Fund   $19,000 2015  
Physical Sciences School Small Grant   $4,000 2013  
IPAS Pilot Project Photoswitches $7000 2012  
IPAS Pilot Project SERS Sensing $4,524 2012  
Physical Sciences school Small Grant   $8,000 2010  
ARC Discovery Project Subwavelength Light Confinement $488,000 2011  

 

Current Higher Degree by Research Supervision (University of Adelaide)

Date Role Research Topic Program Degree Type Student Load Student Name
2017 Co-Supervisor Developing a Nanocomposite Device for Rapid analysis of Bacteria Doctor of Philosophy Doctorate Full Time Ms Thai Thao Ly
2013 Co-Supervisor Development of Novel Optic Fibres for In-Vivo Sensing and Imaging Doctor of Philosophy Doctorate Full Time Dr Hong Ji

Past Higher Degree by Research Supervision (University of Adelaide)

Date Role Research Topic Program Degree Type Student Load Student Name
2015 - 2017 Co-Supervisor Microelectrophoresis of Semiconductive Quantum Dots Master of Philosophy Master Full Time Ms Mengke Han
2015 - 2017 Co-Supervisor Tellurite Glass Film for Enhanced Emission and Collection Efficiency of NV Centre in Nanodiamond Master of Philosophy Master Full Time Mr Xuanzhao Pan
Position
Research Fellow
Phone
83136326
Fax
8313 4380
Campus
North Terrace
Building
The Braggs Buidling, floor 1
Room Number
1 82
Org Unit
Physics

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