Sasan Fathpour, Ph.D.

Affiliations: 
2008- CREOL, The College of Optics and Photonics University of Central Florida, Orlando, FL, United States 
Area:
semiconductors
Website:
ipes.creol.ucf.edu
Google:
"https://scholar.google.com/citations?user=NbTnW00AAAAJ&hl=en"
Bio:

Sasan Fathpour received the Ph.D. degree in Electrical Engineering from the University of Michigan, Ann Arbor in 2005. He then joined the Electrical Engineering Department of UCLA as a Postdoctoral Fellow and became a Visiting Assistant Professor in 2007. He joined the faculty of the College of Optics and Photonics in 2008 and was promoted to Associate and Full Professor in 2014 and 2018, respectively.

His current research interests include heterogeneous integrated photonics, nonlinear integrated optics, silicon photonics, and unconventional optical waveguide platforms operating in the mid-wave- and near-infrared and visible wavelength ranges.

Mean distance: 16.24
 

Parents

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David Pulfrey grad student 1999-2000 UBC
 (MS Thesis: "Performance Predictions for AlGaN/GaN Heterojunction Bipolar Transistors")
Pallab K. Bhattacharya grad student 2000-2005 University of Michigan
 (PhD Dissertation: "High performance lasers and spin -polarized light emitting diodes with quantum dot active regions")
Bahram Jalali post-doc 2005-2007 UCLA (E-Tree)
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Publications

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Elkus BS, Abdelsalam K, Fathpour S, et al. (2020) Quantum-correlated photon-pair generation via cascaded nonlinearity in an ultra-compact lithium-niobate nano-waveguide. Optics Express. 28: 39963-39975
Elkus BS, Abdelsalam K, Rao A, et al. (2019) Generation of broadband correlated photon-pairs in short thin-film lithium-niobate waveguides. Optics Express. 27: 38521-38531
Rao A, Abdelsalam K, Sjaardema T, et al. (2019) Actively-monitored periodic-poling in thin-film lithium niobate photonic waveguides with ultrahigh nonlinear conversion efficiency of 4600 %Wcm. Optics Express. 27: 25920-25930
Malinowski M, Bustos-Ramirez R, Tremblay JE, et al. (2019) Towards On-Chip Self-Referenced Frequency-Comb Sources Based on Semiconductor Mode-Locked Lasers. Micromachines. 10
Gonzalez GFC, Malinowski M, Honardoost A, et al. (2019) Design of a hybrid chalcogenide-glass on lithium-niobate waveguide structure for high-performance cascaded third- and second-order optical nonlinearities. Applied Optics. 58: D1-D6
Honardoost A, Juneghani FA, Safian R, et al. (2019) Towards subterahertz bandwidth ultracompact lithium niobate electrooptic modulators. Optics Express. 27: 6495-6501
Tremblay JÉ, Malinowski M, Richardson KA, et al. (2018) Picojoule-level octave-spanning supercontinuum generation in chalcogenide waveguides. Optics Express. 26: 21358-21363
Rao A, Malinowski M, Honardoost A, et al. (2016) Second-harmonic generation in periodically-poled thin film lithium niobate wafer-bonded on silicon. Optics Express. 24: 29941-29947
Rao A, Patil A, Rabiei P, et al. (2016) High-performance and linear thin-film lithium niobate Mach-Zehnder modulators on silicon up to 50  GHz. Optics Letters. 41: 5700-5703
Novak S, Lin PT, Li C, et al. (2016) Electrospray Deposition of Uniform Thickness Ge23Sb7S70 and As40S60 Chalcogenide Glass Films. Journal of Visualized Experiments : Jove
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