费兹•拉赫曼
副教授
斯托克中心377
Nanoscale Quantum Phenomena Institute (NQPI)
Dr. 费兹•拉赫曼 obtained BS and MS degrees in Physics from Patna University in India. 晚些时候, he got an MSc and a PhD in Semiconductor Science and Technology from Imperial College, 伦敦, UK. Dr. Rahman was a postdoctoral fellow at the University of Nottingham in England before moving to Caltech/JPL for three years as a postdoctoral scholar. He then worked at Cypress Semiconductor Corporation in Bloomington, Minnesota as a senior process integration engineer before taking up a faulty position at the University of Glasgow in Scotland. He also founded a company, Electrospell Ltd.在那段时间里. Dr. Rahman later moved to newbb电子平台 where he is an 副教授 of Electrical 工程. Dr. Rahman's research interests are in semiconductor materials and devices for electronics and 光子学, in particular in the development of novel radiation emitters and detectors. He also conducts research on various semiconductor manufacturing processes.
Journal Article, Academic Journal (14)
- Jadwisienczak W.Chakraborty, M.,哈桑,M.拉赫曼,F. (2023). Comparative Study of Composite Single Crystal and Polycrystalline YAG:Ce Phosphors for Laser-Based Lighting Applications. 物理学报:光子学.
- 拉赫曼,F. (2023). Design and Operation of a Hybrid LED/LD-pumped Phosphor-converted White-light Lamp. Applied 光学; 62: 5.
- 拉赫曼,F. (2023). Natural light-trapping nanostructures on thermally-grown cupric oxide. 母亲ials 研究 牛etin; 159: 6.
- Jadwisienczak W.Chakraborty, M.哈,M.肯赖希,J.拉赫曼,F. (2023). Design and Operation of a Hybrid LED/LD-pumped Phosphor-converted White Light Lamp. Applied 光学; 62: 2266. http://opg.视神经节.org/ao/完整的text.cfm?uri = ao - 62 - 9 - 2266&id=528301.
- Jadwisienczak W.乔杜里,A.崔,X.选B.海德,L.艾恩赛德,C.科尔德施,M.拉赫曼,F.维斯普特,R. (2022). Zinc oxide family semiconductors for ultraviolet radiation emission – a cathodoluminescence study. 母亲. Res. 牛., ; 153: 111906-end.
- 拉赫曼,F.jadwisenczak, W. (2022). Zinc oxide family semiconductors for ultraviolet radiation emission – a cathodoluminescence study. 母亲ials 研究 牛etin; 153: 8.
- 拉赫曼,F. (2022). Diode laser-excited phosphor-converted light sources: a review. Optical 工程; 61: 8.
- 巴哈蒙德斯·洛尔卡,V.麦卡洛克,M.阿瓦洛斯-奥万多,O.戈沃罗夫,A.拉赫曼,F.,吴,S. (2022). Characterization of UVB and UVA-340 Lamps and Determination of Their Effects on ER Stress and DNA Damage. Photochemistry and Photobiology; 98: 1140–1148.
- 拉赫曼,F. (2022). Differences on the ER stress and DNA damage induced by two UVB lamps on keratinocytes. 2022. Photochemistry and Photobiology; 98: 1140-1148.
- 拉赫曼,F.J .鲁尼恩. (2021). Atomic Layer Processes for 母亲ial Growth and Etching - A Review. 4. New York: IEEE Transactions on Semiconductor Manufacturing; 34: 500-512.
- 洛尔卡,V.麦卡洛克,M.阿瓦洛斯-奥万多,O.戈沃罗夫,A.拉赫曼,F.,吴,S. (2021). Differences on the ER stress and DNA damage induced by two UVB lamps on keratinocytes. Photochemistry and Photobiology.
- 拉赫曼,F.乔治,A. (2020). Temporal luminescence of broadband LEDs and their use for generating customizable white light. LEUKOS; 16: 11.
- 拉赫曼,F.卡亚,S. (2020). A review of PMMA as a versatile lithographic resist - with emphasis on UV exposure. Microelectronic 工程; 224: 22.
- Carbaugh D.卡亚,S.拉赫曼,F. (2019). Lithographic tone reversal in 视神经节l exposure of polymethyl methacrylate (PMMA) resist. Bristol, UK: 母亲ials 研究 Express/ Institute of Physics; 6: p045308. http://iopscience.iop.org/10.1088/2053-1591/aafa4d.
Journal Article, Professional Journal (1)
- Choudhari,.崔,X.选B.海德,L.艾恩赛德,C.jadwisenczak, W.科尔德施,M.拉赫曼,F.维斯普特,R. (2022). Zinc Oxide family semiconductors for ultraviolet radiation emission-A cathodoluminescence study. 母亲ials 研究 牛etin; 153: 111906.
专利(6)
- 拉赫曼,F. Solid-state Field Emission Radiation Emitter . WO2023/137144 .
- 拉赫曼,F. Solid-state Field Emission Radiation Emitter. US 63/300,094.
- 拉赫曼,F. Liquid Phosphor Light-emitting Diodes.
- 拉赫曼,F. Solid-state Field Emission Radiation Emitter.
- 拉赫曼,F. LED/激光混合器件.
- 拉赫曼,F. Hybrid Gallium Nitride/Silicon integration.
书,学术(1)
- 拉赫曼,F. (2023). From Edison to LEDs - The science and story of light sources. Singapore: World Scientific Publications; 380. http://www.waterstones.com/author/faiz-rahman/1745623.
Book, Chapter in Scholarly Book (3)
- 拉赫曼,F. (2017). Laser Diode-driven White Light Sources. Boca Raton, FL: Handbook of Solid-state Lighting and LEDs; 25. http://www.crcpress.com/Handbook-of-Solid-State-Lighting-and-LEDs/Feng/p/book/9781498741415.
- 拉赫曼,F. (2011). Nanofabrication Technologies for Surface Texturing of Gallium Nitride Photonic Crystal Light-Emitting Diodes. Singapore: Pan Stanford Publications; 22.
- 拉赫曼,F. (2010). From Microstructures to Nanostructures. Singapore: Pan Stanford Publications; 27.
Magazine/Trade Publication (5)
- 拉赫曼,F. (2023). Evolving TV Display Technologies. 390. Circuit Cellar; 5.
- 拉赫曼,F. (2022). Outshining LEDs: Diode Lasers Deliver Intensity to Illumination. Photonics Spectra; 56: 42-47.
- 拉赫曼,F. (2021). Ultraviolet - The next LED frontier. 375. East Hartford, CT: Circuit Cellar; 14-17.
- 拉赫曼,F. (2020). 激光照明. 7. 光学 & Photonics 新闻; 31: 8.
- 拉赫曼,F. (2019). Trends in Solid-state Green Emitters: Closing the Green Gap. 1. Pittsfield, MA: Photonics Spectra; 53: 5. http://www.photonics.com/Article.aspx?AID=64221.
评论(1)
- 拉赫曼,F. (2019). Zinc Oxide Light-emitting Diodes. 1. Bellingham, WA: Optical 工程; 58: 20. http://www.spiedigitallibrary.org/journals/optical-engineering/volume-58/issue-01/010901/Zinc-oxide-light-emitting-diodes-a-review/10.1117/1.OE.58.1.010901.full.