Jakeya Sultana

• Appointments

  Date	Position	Institution name
  2018 - ongoing	PhD Student	University of Adelaide
  2016 - ongoing	Lecturer	Lecturer

• Language Competencies

  Language	Competency
  English	Can read, write, speak, understand spoken and peer review

• Education

  Date	Institution name	Country	Title
  2018	University of Adelaide	Australia	PhD
  2015 - 2017	Islamic University of Technology	Bangladesh	MSc
  2009 - 2014	Rajshahi University of Engineering and Technology	Bangladesh	BSc

• Journals

  Year	Citation
  2021	Islam, M. S., Cordeiro, C. M. B., Nine, M. J., Sultana, J., Cruz, A. L. S., Dinovitser, A., . . . Abbott, D. (2021). Correction to: “experimental study on glass and polymers: determining the optimal material for potential use in terahertz technology”. IEEE Access, 9, 2705. DOI
  2021	Islam, M. S., Sultana, J., Biabanifard, M., Vafapour, Z., Nine, M. J., Dinovitser, A., . . . Abbott, D. (2021). Corrigendum to “Tunable localized surface plasmon graphene metasurface for multiband superabsorption and terahertz sensing” [Carbon (2020) 559–567] (Carbon (2020) 158 (559–567), (S0008622319311510), (10.1016/j.carbon.2019.11.026)). Carbon, 174, 770. DOI Scopus1 WoS1
  2021	Sultana, J., Islam, M. S., Habib, M. S., Kaushik, M., Dinovitser, A., Ng, B. W. -H., & Abbott, D. (2021). Linearity and Nonlinearity in Hollow-Core Antiresonant Fiber Sensors in the Terahertz Regime. IEEE INSTRUMENTATION & MEASUREMENT MAGAZINE, 24(5), 5-11. DOI
  2021	Islam, M. S., Sultana, J., Osorio, J., Dinovitser, A., Ng, B., Benabid, F., . . . Cordeiro, C. M. B. (2021). Single-step tabletop fabrication for low-attenuation terahertz specialty optical fibres. Advanced Photonics Research, 2(12), 2100165-1-2100165-9. DOI
  2020	Islam, M., Sultana, J., Biabanifard, M., Vafapour, Z., Nine, M. J., Dinovitser, A., . . . Abbott, D. (2020). Tunable localized surface plasmon graphene metasurface for multiband superabsorption and terahertz sensing. Carbon, 158, 559-567. DOI Scopus107 WoS102
  2020	Sultana, J., Islam, M. S., Cordeiro, C. M. B., Dinovitser, A., Kaushik, M., Ng, B. W. H., & Abbott, D. (2020). Terahertz hollow core antiresonant fiber with metamaterial cladding. Fibers, 8(2), 1-11. DOI Scopus15
  2020	Islam, M. S., Cordeiro, C. M. B., Nine, M. J., Sultana, J., Cruz, A. L. S., DInovitser, A., . . . Abbott, D. (2020). Experimental study on glass and polymers: determining the optimal material for potential use in terahertz technology. IEEE Access, 8, 97204-97214. DOI Scopus29 WoS28
  2020	Saiful Islam, M. D., Cordeiro, C. M. B., Franco, M. A. R., Sultana, J., Cruz, A. L. S., & Abbott, D. (2020). Terahertz optical fibers [Invited]. Optics Express, 28(11), 16089-16117. DOI Scopus58 WoS54 Europe PMC6
  2020	Sultana, J., Islam, M. S., Cordeiro, C. M. D. B., Habib, M. S., Dinovitser, A., Ng, B. W. -H., & Abbott, D. (2020). Exploring low loss and single mode in antiresonant tube lattice terahertz fibers. IEEE Access, 8, 113309-113317. DOI Scopus15 WoS14
  2020	Ankan, I. M., Aslam Mollah, M., Sultana, J., & Saiful Islam, M. (2020). Negative curvature hollow-core anti-resonant fiber for terahertz sensing. Applied Optics, 59(28), 8519-8525. DOI Scopus14 WoS13
  2020	Sultana, J., Islam, M. S., Cordeiro, C. M. B., Habib, M. S., Kaushik, M., Dinovitser, A., . . . Abbott, D. (2020). Hollow core inhibited coupled antiresonant terahertz fiber: a numerical and experimental study. IEEE Transactions on Terahertz Science and Technology, 11(3), 245-260. DOI Scopus6 WoS6
  2019	Islam, M., Cordeiro, C., Sultana, J., Aoni, R., Feng, S., Ahmed, R., . . . Abbott, D. (2019). A Hi-Bi ultra-sensitive surface plasmon resonance fiber sensor. IEEE Access, 7, 79085-79094. DOI Scopus83 WoS70
  2019	Saiful Islam, M. D., Islam, M. R., Sultana, J., Dinovitser, A., Ng, B. W. H., & Abbott, D. (2019). Exposed-core localized surface plasmon resonance biosensor. Journal of the Optical Society of America B: Optical Physics, 36(8), 2306-2311. DOI Scopus40 WoS39
  2019	Sultana, J., Islam, M. R., Faisal, M., Abu Talha, K. M., & Islam, M. S. (2019). Design and analysis of a Zeonex based diamond-shaped core kagome lattice photonic crystal fiber for T-ray wave transmission. Optical Fiber Technology, 47, 55-60. DOI Scopus18 WoS16
  2019	Islam, M., Sultana, J., Aoni, R. A., Habib, M. S., Dinovitser, A., Ng, B. W. H., & Abbott, D. (2019). Localized surface plasmon resonance biosensor: an improved technique for SERS response intensification. Optics Letters, 44(5), 1134-1137. DOI Scopus41 WoS41 Europe PMC7
  2018	Islam, M. D. S., Sultana, J., Rifat, A. A., Ahmed, R., Dinovitser, A., Ng, B. W. H., . . . Abbott, D. (2018). Dual-polarized highly sensitive plasmonic sensor in the visible to near-IR spectrum. Optics Express, 26(23), 30347-30361. DOI Scopus116 WoS108 Europe PMC9
  2018	Islam, M. R., Arif Hossain, M., Ali, S. I., Sultana, J., & Islam, M. (2018). Design and Characterization of an Ultra Low Loss, Dispersion-Flattened Slotted Photonic Crystal Fiber for Terahertz Application. Journal of Optical Communications, 42(4), 619-626. DOI Scopus1
  2018	Sultana, J., Islam, M. S., Ahmed, K., Dinovitser, A., Ng, B. W. -H., & Abbott, D. (2018). Terahertz detection of alcohol using a photonic crystal fiber sensor. Applied optics, 57(10), 2426-2433. DOI Scopus114 WoS98 Europe PMC6
  2018	Islam, M. S., Sultana, J., Dinovitser, A., Ahmed, K., Ng, B. W. -H., & Abbott, D. (2018). Sensing of toxic chemicals using polarized photonic crystal fiber in the terahertz regime. Optics Communications, 426, 341-347. DOI Scopus57 WoS44
  2018	Sultana, J., Islam, M. S., Faisal, M., Islam, M. R., Ng, B. W. -H., Ebendorff-Heidepriem, H., & Abbott, D. (2018). Highly birefringent elliptical core photonic crystal fiber for terahertz application. Optics Communications, 407, 92-96. DOI Scopus69 WoS61
  2018	Islam, M. S., Sultana, J., Ahmed, K., Islam, M. R., Dinovitser, A., Ng, B. W. -H., & Abbott, D. (2018). A novel approach for spectroscopic chemical identification using photonic crystal fiber in the terahertz regime. IEEE Sensors Journal, 18(2), 575-582. DOI Scopus170 WoS139
  2018	Islam, M. S., Sultana, J., Dinovitser, A., Ng, B. W. -H., & Abbott, D. (2018). A novel Zeonex based oligoporous-core photonic crystal fiber for polarization preserving terahertz applications. Optics Communications, 413, 242-248. DOI Scopus49 WoS40
  2018	Islam, M. S., Sultana, J., Dorraki, M., Atai, J., Islam, M. R., Dinovitser, A., . . . Abbott, D. (2018). Low loss and low dispersion hybrid core photonic crystal fiber for terahertz propagation. Photonic Network Communications, 35(3), 364-373. DOI Scopus35 WoS32
  2018	Sultana, J., Islam, M. S., Islam, M., & Abbott, D. (2018). High numerical aperture, highly birefringent novel photonic crystal fibre for medical imaging applications. Electronics Letters, 54(2), 61-62. DOI Scopus55 WoS48
  2018	Islam, M. S., Sultana, J., Dinovitser, A., Faisal, M., Islam, M. R., Ng, B. W. -H., & Abbott, D. (2018). Zeonex-based asymmetrical terahertz photonic crystal fiber for multichannel communication and polarization maintaining applications. Applied optics, 57(4), 666-672. DOI Scopus62 WoS53 Europe PMC2
  2018	Islam, M. S., Sultana, J., Rifat, A. A., Dinovitser, A., Ng, B. W. -H., & Abbott, D. (2018). Terahertz sensing in a hollow core photonic crystal fiber. IEEE Sensors Journal, 18(10), 4073-4080. DOI Scopus96 WoS78
  2018	Islam, M. S., Sultana, J., Faisal, M., Islam, M. R., Dinovitser, A., Ng, B. W. H., & Abbott, D. (2018). A modified hexagonal photonic crystal fiber for terahertz applications. Optical Materials, 79, 336-339. DOI Scopus27 WoS22
  2017	Islam, M. S., Sultana, J., Rana, S., Islam, M. R., Faisal, M., Kaijage, S. F., & Abbott, D. (2017). Extremely low material loss and dispersion flattened TOPAS based circular porous fiber for long distance terahertz wave transmission. Optical Fiber Technology, 34, 6-11. DOI Scopus87 WoS73
  2017	Islam, M. S., Sultana, J., Atai, J., Abbott, D., Rana, S., & Islam, M. R. (2017). Ultra low-loss hybrid core porous fiber for broadband applications. Applied Optics, 56(4), 1232-1237. DOI Scopus56 WoS50 Europe PMC1
  2017	Sultana, J., Islam, M. S., Atai, J., Islam, M. R., & Abbott, D. (2017). Near-zero dispersion flattened, low-loss porous-core waveguide design for terahertz signal transmission. Optical Engineering, 56(7), 076114-1-076114-5. DOI Scopus37 WoS30
  2017	Islam, M. S., Sultana, J., Atai, J., Islam, M. R., & Abbott, D. (2017). Design and characterization of a low-loss, dispersion-flattened photonic crystal fiber for terahertz wave propagation. Optik, 145, 398-406. DOI Scopus36 WoS33
  2016	Islam, M. S., Rana, S., Islam, M. R., Faisal, M., Rahman, H., & Sultana, J. (2016). Porous core photonic crystal fibre for ultra-low material loss in THz regime. IET Communications, 10(16), 2179-2183. DOI Scopus68 WoS61
  2016	Islam, M. S., Islam, M. R., Faisal, M., Arefin, A. S. M. S., Rahman, H., Sultana, J., & Rana, S. (2016). Extremely low-loss, dispersion flattened porous-core photonic crystal fiber for terahertz regime. OPTICAL ENGINEERING, 55(7), 1-5. DOI Scopus36 WoS26

• Conference Papers

  Year	Citation
  2021	Islam, M. S., Upadhyay, A., Ako, R. T., Sultana, J., Ng, B. W. H., Bhaskaran, M., . . . Abbott, D. (2021). High Q Asymmetrical Terahertz Metasurface For Frequency Selective Applications. In 2021 46th International Conference on Infrared, Millimeter and Terahertz Waves (IRMMW-THz) Vol. 2021-August (pp. 1-2). online: IEEE. DOI
  2019	Islam, M. S., Sultana, J., Dinovitser, A., Ng, B., & Abbott, D. (2019). Electrically Tunable Graphene Metasurface for Multiband Superabsorption and Terahertz Sensing. In International Conference on Infrared, Millimeter, and Terahertz Waves Vol. 2019-September (pp. 1-2). online: IEEE. DOI Scopus2
  2019	Islam, M. S., Sultana, J., Dinovitser, A., Cordeiro, C., Cruz, A. L. S., Abbott, D., & Ng, B. (2019). Broadband Characterization Of Glass And Polymer Materials Using THz-TDS. In IEEE Xplore Vol. 2019-September (pp. 1-2). online: IEEE. DOI Scopus11
  2019	Sultana, J., Islam, M. S., Habib, M. S., Cordeiro, M. B., DInovitser, A., Ng, B. W. H., . . . Abbott, D. (2019). Novel Hollow Core Antiresonant Terahertz Fiber with Metamaterial Cladding. In International Conference on Infrared, Millimeter, and Terahertz Waves, IRMMW-THz Vol. 2019-September (pp. 1-2). online: IEEE. DOI Scopus2
  2019	Sultana, J., Saiful, M. S., Habib, M. S., Cordeiro, C. M. B., Dinovitser, A., Ng, B. W. H., . . . Abbott, D. (2019). Five-capillary cladding terahertz fiber with low loss and single mode. In International Conference on Infrared, Millimeter, and Terahertz Waves, IRMMW-THz Vol. 2019-September (pp. 1-2). online: IEEE. DOI Scopus3
  2018	Islam, M., Sultana, J., Dinovitser, A., Ng, B., & Abbott, D. (2018). A gold coated plasmonic sensor for biomedical and biochemical analyte detection. In 2018 43rd International Conference on Infrared Millimeter and Terahertz Waves Vol. 2018-September (pp. 8510018-1-8510018-2). Nagoya, Japan: IEEE. DOI Scopus9 WoS17
  2017	Islam, M. S., Sultana, J., Dinovitser, A., Ahmed, K., Islam, M. R., Faisal, M., . . . Abbott, D. (2017). A novel Zeonex based photonic sensor for alcohol detection in beverages. In Telecommunications and Photonics (ICTP), 2017 IEEE International Conference on Vol. 2017-December (pp. 114-118). Dhaka: IEEE. DOI Scopus24 WoS20
  2016	Rana, S., Islam, M. S., Sultana, J., Reza, K. M. S., Uddin, M. A., Faisal, M., . . . Islam, R. (2016). A Highly Birefringent Slotted-Core THz Fiber. In 9TH INTERNATIONAL CONFERENCE ON ELECTRICAL AND COMPUTER ENGINEERING (ICECE) (pp. 226-229). online: IEEE. WoS3

1. Lecturer

Electrical & Electronic Engineering

Bangladesh University, Dhaka, Bangladesh

• Email: jakeya.sultana@adelaide.edu.au