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Bahram Jalali
Researcher at University of California, Los Angeles
Publications - 674
Citations - 24335
Bahram Jalali is an academic researcher from University of California, Los Angeles. The author has contributed to research in topics: Silicon & Silicon photonics. The author has an hindex of 67, co-authored 659 publications receiving 22250 citations. Previous affiliations of Bahram Jalali include Columbia University & University of California, Berkeley.
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Optical rogue waves
TL;DR: This work reports the observation of rogue waves in an optical system, based on a microstructured optical fibre, near the threshold of soliton-fission supercontinuum generation—a noise-sensitive nonlinear process in which extremely broadband radiation is generated from a narrowband input.
Journal Article
Silicon photonics
TL;DR: The silicon chip has been the mainstay of the electronics industry for the last 40 years and has revolutionized the way the world operates as mentioned in this paper, however, any optical solution must be based on low-cost technologies if it is to be applied to the mass market.
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Demonstration of a silicon Raman laser
Ozdal Boyraz,Bahram Jalali +1 more
TL;DR: The demonstration of the first silicon Raman laser using a silicon waveguide as the gain medium and has a clear threshold at 9 W peak pump pulse power and a slope efficiency of 8.5%.
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Dispersive Fourier transformation for fast continuous single-shot measurements
Keisuke Goda,Bahram Jalali +1 more
TL;DR: In this paper, the authors cover the principle of dispersive Fourier transformation and its implementation in diverse applications, such as optical rogue waves and rare cancer cells in blood, as well as their application in real-time instrumentation and measurement.
Journal Article
Silicon Photonics
Bahram Jalali,Sasan Fathpour +1 more
TL;DR: In this paper, the authors provide an overview of the state of the art in silicon photonics and outline challenges that must be overcome before large-scale commercialization can occur, in particular, for realization of integration with CMOS very large scale integration (VLSI) and must operate within thermal constraints of VLSI chips.