Photonics
Laboratory @ UCLA
Journal Publications
2009
[1].
K. Goda, K. K. Tsia, and B. Jalali, “Serial
time-encoded amplified imaging for real-time observation of fast dynamic
phenomena,” Nature 458,
1145 (2009)
[2].
B. Jalali, D. R. Solli, and
[3].
K. Goda, D. R. Solli, K. K. Tsia, and B. Jalali, “Theory
of amplified dispersive Fourier transformation,” Physical Review A 80, 043821 (2009)
[4].
D. R. Solli, P. Koonath, and B. Jalali, “Inverse Raman
scattering in silicon: a free-carrier enhanced effect,” Physical Review A 79, 053853
(2009)
[5].
D. Dimitropoulos and B. Jalali,
“Stochastic differential equation approach for waves in a random
medium,” Physical Review E
79, 036606 (2009)
[6].
S. Gupta and B. Jalali, “Time stretch enhanced
recording oscilloscope,” Applied
Physics Letters 94, 041105 (2009)
[7].
N. K. Hon, K. K. Tsia, D. R. Solli, and B. Jalali,
“Periodically poled silicon,” Applied
Physics Letters 94, 091116 (2009)
[8].
K. K. Tsia, K. Goda, D. Capewell, and B. Jalali,
“Simultaneous mechanical-scan-free confocal microscopy and laser
microsurgery,” Optics Letters
34, 2099 (2009)
[9].
K. Goda, “Ultrafast imaging method using optical
processing technology,” OptoNews 3, 7 (2009)
2008
[1].
D. R. Solli, J. Chou, and B. Jalali, “Amplified
wavelength-time transformation for real-time spectroscopy,” Nature Photonics 2, 48 (2008)
[2].
D. R. Solli, C. Ropers, and B. Jalali, “Active control
of rogue waves for stimulated supercontinuum generation,” Physical Review Letters 101,
233902 (2008)
[3].
K. Goda, K. K. Tsia, and B. Jalali, “Amplified
dispersive Fourier-transform imaging for ultrafast displacement sensing and
barcode reading,” Applied Physics
Letters 93, 131109 (2008)
[4].
K. Goda, D. R. Solli, and B. Jalali, “Real-time
optical reflectometry enabled by amplified dispersive Fourier
transformation,” Applied Physics
Letters 93, 031106 (2008)
[5].
D. R. Solli, P. Koonath, and B. Jalali, “Broadband
Raman amplification in silicon,” Applied
Physics Letters 93, 191105 (2008)
[6].
J. Chou, D. R. Solli, and B. Jalali, “Real-time
spectroscopy with subgigahertz resolution using
amplified dispersive Fourier transformation,” Applied Physics Letters 92, 111102 (2008)
[7].
K. K. Tsia,
[8].
K. K. Tsia,
[9].
P. Koonath, D. R. Solli, and B. Jalali, “Limiting
nature of continuum generation in silicon,” Applied Physics Letters 93, 091114 (2008)
[10].
S. Gupta and B. Jalali, “Time-warp correction and
calibration in photonic time-stretch ADC,” Optics Letters 33, 2674 (2008)
[11].
K. K. Tsia, S. Fathpour, and B. Jalali, “Electrical
control of parametric processes in silicon waveguides,” Optics Express 16, 9838 (2008)
[12].
M. Krause, H. Renner, S. Fathpour,
[13].
H. Chan, A. I. V. Casado, J. Basak, M. Griot, W.-Y. Weng, R. Wesel, B. Jalali, E. Yablonovitch, and
[14].
D. Dimitropoulos, D. R. Solli, R.
Claps, O. Boyraz, and B. Jalali, “Noise figure
of silicon Raman amplifiers,” Journal
of Lightwave Technology 26, 847 (2008)
[15].
X. Sang, D. Dimitropoulos, B.
Jalali, and O. Boyraz, “Influence of
pump-to-signal RIN transfer on noise figure in silicon Raman amplifiers,”
IEEE Photonics Technology Letters
20, 2021 (2008)
[16].
B. Jalali, “Can silicon change photonis?,”
Physics Status Solidi
(a) 205, 213 (2008)
2007
[1].
D. R. Solli, C. Ropers, P. Koonath, and B. Jalali,
“Optical rogue waves,” Nature
450, 1054 (2007)
[2].
B. Jalali, “Laser design: a cooler Raman laser,”
Nature Photonics 1, 691 (2007)
[3].
R. C. J. Hsu, A. Ayazi, B. Houshmand,
and B. Jalali, “All-dielectric photonic-assisted radio front-end
technology,” Nature Photonics
1, 535 (2007)
[1].
B. Jalali, “Teaching silicon new tricks,” Nature Photonics 1, 193 (2007)
[2].
B. Jalali, “Making silicon lase,”
Scientific American 58 (2007)
[3].
J. Chou, O. Boyraz, D. R. Solli,
and B. Jalali, “Femtosecond real-time single-shot digitizer,” Applied Physics Letters 91,
161105 (2007)
[4].
P. Koonath, D. R. Solli, and B. Jalali, “Continuum
generation and carving on a silicon chip,” Applied Physics Letters 91, 061111 (2007)
[5].
V. Raghunathan, D. Borlaug, R. Rice, and B. Jalali,
“Demonstration of a mid-infrared silicon Raman amplifier,” Optics Express 15, 14355 (2007)
[6].
V. Raghunathan, H. Renner, R. Rice, and B. Jalali,
“Self-imaging silicon Raman amplifier,” Optics Express 15, 3396 (2007)
[7].
P. Koonath and B. Jalali, “Multilayer 3-D photonics in
silicon,” Optics Express
15, 12686 (2007)
[8].
A. Tarighat,
[9].
A. Tarighat, R. C. J. Hsu, A.
Shah, A. H. Sayed, and B. Jalali, “Fundamentals
and challenges of optical multiple-input multiple-output multimode fiber
links,” IEEE Communications
Magazine 57 (2007)
[10].
S. Fathpour, K. K. Tsia, and B. Jalali, “Two-photon
photovoltaic effect in silicon,” IEEE
Journal of Quantum Electronics 43, 1211 (2007)
[11].
S. Gupta,
2006
[1].
S. Fathpour, K. K. Tsia, and B. Jalali, “Energy
harvesting in silicon Raman amplifiers,” Applied Physics Letters 89, 061109 (2006)
[2].
T. Indukuri, P. Koonath, and B.
Jalali, “Three-dimensional integration of metal-oxide-semiconductor
transistor with subterranean photonics in silicon,” Applied Physics Letters 88, 121108 (2006)
[3].
K. K. Tsia,
[4].
[5].
D. Dimitropoulos, D. R. Solli, R.
Claps, and B. Jalali, “Noise figure and photon statistics in coherent
anti-Stokes Raman scattering,” Optics
Express 14, 11418 (2006)
[6].
B. Jalali, V. Raghunathan, R. Shori,
S. Fathpour, D. Dimitropoulos, and O. Stafsudd, “Prospects for silicon mid-IR Raman
lasers,” Journal of Selected
Topics in Quantum Electronics 12, 1618 (2006)
[7].
B. Jalali, V. Raghunathan, D. Dimitropoulos,
and O. Boyraz, “Raman-based silicon
photonics,” Journal of Selected
Topics in Quantum Electronics 12, 412 (2006)
[8].
A. Nuruzzaman, O. Boyraz, and B. Jalali, “Time stretched short-time
Fourier transform,” IMTC
Transactions on Instrumentation and Measurement 55, 598 (2006)
[9].
B. Jalali, M. Paniccia, and G.
Reed, “Silicon photonics,” Microwave
Magazine 7, 58 (2006)
[10].
B. Jalali, “Silicon lasers,” APS News 15, 5 (2006)
[11].
P. Koonath, T. Indukuri, and B.
Jalali, “Monolithic 3-D silicon photonics,” Journal of Lightwave Technology 24, 1796 (2006)
[12].
B. Bortnik, I. Poberezhskiy,
J. Chou, B. Jalali, and H. Fetterman, ”Predistortion technique for RF-photonic generation of
high-power ultrawideband arbitrary waveforms,” Journal of Lightwave Technology
24, 2752 (2006)
[13].
A. Tarighat, R. C. J. Hsu, A. H. Sayed, and B. Jalali, “Digital adaptive phase noise
reduction in coherent optical links,” Journal
of Lightwave Technology 24, 1269 (2006)
[14].
B. Jalali and S. Fathpour, “Silicon photonics,” Journal of Lightwave Technology
24, 4600 (2006)
[15].
V. Raghunathan, R. Shori, O. Stafsudd, and B. Jalali, “Nonlinear absorption in
silicon and the prospects of mid-infrared silicon Raman lasers,” Journal of Physica
Status Solidi (a) Rapid Research Letters 203,
R38 (2006)
[16].
R. Claps, D. Dimitropoulos, B.
Jalali, and B. Jusserand, “Raman scattering
from acoustic modes in Si/Ge superlattice
waveguides,” Journal of Superlattices and Microstructures 39, 501 (2006)
[17].
R. C. J. Hsu, A. Tarighat, A. R.
Shah, A. H. Sayed, and B. Jalali, “Capacity
enhancement in coherent optical MIMO multimode fiber links,” IEEE Communications Letters 10,
195 (2006)
[18].
L. Sirleto, M. Ferrara, B. Jalali,
and R. Rendina, “Spontaneous Raman emission in
porous silicon at 1.5 μm and prospects for
a Raman amplifier,” Journal of
Optics A: Pure and Applied Optics 8, S574 (2006)
2005
[1].
Y. Han, O. Boyraz, and B. Jalali,
“Tera-sample-per-second real-time waveform
digitizer,” Applied Physics
Letters 87, 241116 (2005)
[2].
D. Dimitropoulos,
[3].
P. Koonath, T. Indukuri, and B.
Jalali, “Add-drop filters utilizing vertically-coupled microdisk resonators in silicon,” Applied Physics Letters 86,
091102 (2005)
[4].
D. Dimitropoulos, R. Jhaveri, R. Claps, J. C. S. Woo, and B. Jalali,
“Lifetime of photo-generated carriers in silicon-on-insulator rib
waveguides,” Applied Physics
Letters 86, 071115 (2005)
[5].
B. Jalali and S. Fathpour, “Have silicon lasers come
of age?” Photonics Spectra,
Nov. 62 (2005)
[6].
R. Claps, V. Raghunathan, O. Boyraz,
P. Koonath, D. Dimitropoulos, and B. Jalali,
“Raman amplification and lasing in SiGe
waveguides,” Optics Express
13, 2459 (2005)
[7].
O. Boyraz and B. Jalali,
“Demonstration of directly modulated silicon Raman laser,” Optics Express 13, 796 (2005)
[8].
J. Chou, O. Boyraz, and B. Jalali,
“Adaptive optical post distortion linearization,” Optics Express 13, 5711 (2005)
[9].
A. Shah, C. J. Hsu, A. Tarighat,
A. H. Sayed, and B. Jalali, “Coherent optical
MIMO (COMIMO),” Journal of
Lightwave Technology 23, 2410 (2005)
[10].
V. Raghunathan, R. Claps, D. Dimitropoulos,
and B. Jalali, “Parametric Raman wavelength conversion in scaled silicon
waveguides,” Journal of
Lightwave Technology 23, 2094 (2005)
[11].
I. Poberezhskiy, B. Bortnik, J. Chou, B. Jalali, and H. R. Fetterman,
“Serrodyne frequency translation of continuous
optical signals using ultra-wideband electrical sawtooth
waveforms,” Journal of Quantum
Electronics 41, 1533 (2005)
[12].
Y. Han and B. Jalali, “Continuous-time time-stretched analog-to-digital
converter array implemented using virtual time gating,” Transactions on Circuits and Systems I
52, 1502 (2005)
[13].
Y. Han, O. Boyraz, and B. Jalali,
“Ultrawide-band photonic time-stretch A/D
converter employing photonic phase diversity.” Transactions on Microwave Theory and Techniques 53, 1404
(2005)
2004
[1].
P. Koonath, T. Indukuri, and B.
Jalali, “Vertically coupled micro-resonators realized using
three-dimensional sculpting in silicon,” Applied Physics Letters 85, 1018 (2004)
[2].
V. Raghunathan, R. Claps, D. Dimitropoulos,
and B. Jalali, “Wavelength conversion in silicon using Raman induced
four-wave mixing,” Applied
Physics Letters 85, 34 (2004)
[3].
O. Boyraz and B. Jalali,
“Demonstration of a silicon Raman laser,” Optics Express 12, 5269 (2004)
[4].
R. Claps, V. Raghunathan, D. Dimitropoulos,
and B. Jalali, “Influence of nonlinear absorption on Raman amplification
in silicon waveguides,” Optics
Express 12, 2774 (2004)
[5].
O. Boyraz, P. Koonath, V.
Raghunathan, and B. Jalali, “All optical switching and continuum
generation in silicon waveguides,” Optics
Express 12, 4094 (2004)
[6].
O. Boyraz, T. Indukuri,
and B. Jalali, “Self-phase modulation-induced spectral broadening in
silicon waveguides,” Optics
Express 12, 829 (2004)
[7].
D. Dimitropoulos, V. Raghunathan,
R. Claps, and B. Jalali, “Phase-matching and nonlinear optical processes
in silicon waveguides,” Optics
Express 12, 149 (2004)
[8].
J. Chou, Y. Han, and B. Jalali, “Time-wavelength
spectroscopy for chemical sensing,” IEEE
Photonics Technology Letters 16, 1140 (2004)
[9].
L. Sirleto, V. Raghunathan, A.
Rossi, and B. Jalali, “Raman emission in porous silicon at 1.54 μm,” Electronics
Letters 40, 1221 (2004)
[10].
O. Boyraz and B. Jalali,
“Demonstration of 11 dB fiber-to-fiber gain in a silicon Raman
amplifier,” IEICE Electronics
Express 1, 429 (2004)
[11].
O. Boyraz, D. Dimitropoulos,
and B. Jalali, “Observation of simultaneous Stokes and anti-Stokes
emission in a silicon Raman laser,”
IEICE Electronics Express 1, 435 (2004)
[12].
C. J. Hsu, A. Shah, and B. Jalali, “Coherent optical
multiple-input multiple-output communication,” IEICE Electronics Express 1, 392 (2004)
[13].
V. Raghunathan, D. Dimitropoulos,
R. Claps, and B. Jalali, “Raman induced wavelength conversion in scaled
silicon waveguides,” IEICE
Electronics Letters 1, 298 (2004)
[14].
B. Jalali, J. Chou, and Y. Han, “Optically sculpt UWB
waveforms,” Microwaves & RF
Magazine 43, 54 (2004)
[15].
Y. Han, O. Boyraz, A. Nuruzzaman, and B. Jalali, “Optical header
recognition using time stretch preprocessing,” Optics Communications 237, 333 (2004)
2003
[1].
P. Koonath, K. Kishima, T. Indukuri,
and B. Jalali, “Sculpting of three-dimensional nano-optical
structures in silicon,” Applied
Physics Letters 83, 4909 (2003)
[2].
R. Claps, V. Raghunathan, D. Dimitropoulos,
and B. Jalali, “Anti-Stokes Raman conversion in silicon waveguides,”
Optics Express 11, 2862 (2003)
[3].
R. Claps, D. Dimitropoulos, V.
Raghunathan, Y. Han, and B. Jalali, “Observation of stimulated Raman
amplification in silicon waveguides,” Optics
Express 11, 1731 (2003)
[4].
D. Dimitropoulos, B. Houshmand, R. Claps, and B. Jalali, “Coupled-mode
theory of the Raman effect in silicon-on-insulator waveguides,” Optics Letters 28, 1954 (2003)
[5].
Y. Han and B. Jalali, “Photonic time-stretched
analog-to-digital converter: fundamental concepts and practical
considerations,” Journal of Lightwave Technology 21, 3085 (2003)
[6].
J. Han, B.-J. Seo, Y. Han, B. Jalali, and H. R. Fetterman, ”Reduction of fiber chromatic dispersion
effects in fiber-wireless and photonic time-stretching system using polymer
modulators,” Journal of Lightwave Technology 21, 1504 (2003)
[7].
R. Sadhwani and B. Jalali,
“Adaptive CMOS predistortion linearizer for fiber-optic links,” Journal of Lightwave
Technology 21, 3180 (2003)
[8].
B. Jalali, “Time-frequency techniques for ultrafast
data conversion,” LEOS Annual
Newsletter, Oct. 15 (2003)
[9].
J. Basak, R. Sadhwani,
and B. Jalali, “WDM pilot tone technique for analog optical links,”
Electronics Letters 39, 1083
(2003)
[10].
Y. Han, B. Jalali, J. Han, B.-J. Seo, and H. R. Fetterman, ”Demonstration and analysis of single
sideband photonic time-stretch system,” IEICE Transactions on Electronics E86-C, 1276 (2003)
[11].
J. Chou, Y. Han, and B. Jalali, “Adaptive RF photonic
arbitrary waveform generator,” IEICE
Transactions on Electronics E86-C, 1226 (2003)
[12].
Y. Han and B. Jalali, “Time-bandwidth product of the
photonic time stretch analog-to-digital converter,” Transactions on Microwave Theory and Techniques 51, 1886
(2003)
[13].
Y. H. Kuo, W. H. Steier,
[14].
J. Chou, Y. Han, and B. Jalali, “Adaptive RF photonic
arbitrary waveform generator,” Photonics
Technology Letters 15, 581 (2003)
2002
[1].
R. Claps, D. Dimitropoulos, Y.
Han, and B. Jalali, “Observation of Raman emission in silicon waveguides
at 1.54 μm,” Optics Express 10, 1305 (2002)
[2].
S. Dubovitsky, W. H. Steier,
[3].
R. Claps, D. Dimitropoulos, and B.
Jalali, “Stimulated Raman scattering in silicon waveguides,” Electronics Letters 38, 1352
(2002)
[4].
A. S. Bhushan, Y. Han, and B.
Jalali, ”Time stretched ADC arrays,” Journal of Transactions on Circuits and Systems 49, 521
(2002)
[5].
A. S. Bhushan, P. V. Kelkar, B. Jalali, O. Boyraz, and
M. Islam, “130 GSa/s photonic analog-to-digital
converter with time stretch preprocessor,” Photonics Technology Letters 14, 684 (2002)
[6].
I. Oh,
Prior to 2002
[1].
O. Boyraz, J. Kim, M. N. Islam, F.
Coppinger, and B. Jalali, “10 Gb/s multiple wavelength, coherent short pulse source based
on spectral carving of supercontinuum generated in fibers,” Journal of Lightwave
Technology 18, 2167 (2000)
[2].
A. S. Bhushan, P. V. Kelkar, and B. Jalali, ”30 Gsample/s
time-stretch analog-to-digital converter,” Electronics Letters 36, 1526 (2000)
[3].
S. Yegnanarayanan and B. Jalali,
“Wavelength-selective true time delay for optical control of phased-array
antenna,” Photonics Technology
Letters 12, 1049 (2000)
[4].
S. Yegnanarayanan, A. S. Bhushan, and B. Jalali, “Fast wavelength-hopping
time-spreading encoding/decoding for optical CDMA,” Photonics Technology Letters 12, 573 (2000)
[5].
P. Kelkar, F. Coppinger,
A. S. Bhushan, and B. Jalali, “Time-domain
optical sensing,” Electronics
Letters 35, 1661 (1999)
[6].
F. Coppinger, A. S. Bhushan, and B. Jalali, “Photonic time stretch and
its application to analog-to-digital conversion,” IEEE Transactions on Microwave Theory and Techniques 47,
1309 (1999)