 Search for
subsolarmass black hole binaries
in the second part of Advanced LIGO
and Virgo's third observing run, R.
Abbott, M.S. Shahriar, et al., to
appear in Monthly Notices of The Royal Astronomical Society
(2023).
 Elimination of optical
phase sensitivity in a shift,
scale, and rotation
invariant hybrid optoelectronic
correlator via offaxis
operation,
J. Gamboa, T. Hamidfar, X. Shen,
and S. M. Shahriar,
Optics Express 31,
4, 59906002; doi:10.1364/OE.484149, (2023).
 Allsky search for
continuous gravitational waves from
isolated neutron stars using
Advanced LIGO and Advanced Virgo O3 data,
R. Abbott, M.S. Shahriar, et
al., Physical Review D 106,
102008 (2022).
 Search for
gravitational waves from
Scorpius X1 with a hidden Markov
model in O3 LIGO data,
R. Abbott, M.S. Shahriar, et
al., Physical Review D 106,
062002 (2022).
 Searches for gravitational
waves from known pulsars at
two harmonics in the Second and
third LIGOVirgo observing runs,
R. Abbott, M.S. Shahriar, et
al., The Astrophysical Journal 935,
1 (2022).
 Search for continuous
gravitational wave emission
from the Milky Way center in
O3 LIGOVirgo data,
R. Abbott, M.S. Shahriar, et
al., Physical Review D 106,
042003 (2022).
 Search for subsolarmass
binaries in the first half of
Advanced LIGO and Virgo's
third observing run,
R. Abbott, M.S. Shahriar, et
al., Phys. Rev. Lett. 129,
061104 (2022).
 Narrowband searches for
continuous and longduration
transient gravitational waves from
known pulsars in the LIGOVirgo
third observing run,
R. Abbott, M.S. Shahriar, et
al., The Astrophysical Journal 932,
133 (2022).
 Allsky, allfrequency
directional search for persistent
gravitational waves from Advanced LIGO's
and Advanced Virgo's first
three observing runs,
R. Abbott, M.S. Shahriar, et
al., Physical Review D 105,
122001 (2022).
 Allsky search for
gravitational wave emission
from scalar boson clouds around
spinning black holes in LIGO O3 data,
R. Abbott, M.S. Shahriar, et
al., Physical Review D 105,
102001 (2022).
 First joint observation
by the underground gravitationalwave
detector KAGRA with GEO 600,
R. Abbott, M.S. Shahriar, et
al., Progress of Theor. and Exp. Phys. 2022,
063F01 (2022).
 Search of the early
O3 LIGO data for continuous
gravitational waves from the
Cassiopeia A and Vela Jr.
supernova remnants,
R. Abbott, M.S. Shahriar, et
al., Physical Review D 105,
082005 (2022).
 Constraints on
dark photon dark matter using
data from LIGO's and Virgo's third
observing run,
R. Abbott, M.S. Shahriar, et
al., Physical Review D 105,
063030 (2022).
 Search for continuous
gravitational waves from
20 accreting millisecond
Xray pulsars in O3 LIGO data,
R. Abbott, M.S. Shahriar, et
al., Physical Review D 105,
022002 (2022).
 Modelbased
crosscorrelation search for
gravitational waves from the
lowmass Xray binary Scorpius
X1 in LIGO O3 data, R.
Abbott, M.S. Shahriar, et al.,
The Astrophysical Journal
Letters, 914,
L30 (2022).
 The population of
merging compact binaries inferred
using gravitational waves through
GWTC3, R.
Abbott, M.S. Shahriar, et al., to
appear in Phys. Rev. X
(2022).
 Tests of General Relativity
with GWTC3, R.
Abbott, M.S. Shahriar, et al., to
appear in Phys. Rev. D
(2022).
 Beyond the Petermann
limit: Prospect of increasing
sensor precision near
exceptional points,
D. D. Smith, H. Chang, E. Mikhailov,
and S. M. Shahriar,
Physical Review A 106,
013520; doi:10.1103/PhysRevA.106.013112, (2022).
 Spinsqueezinginduced
enhancement of
the sensitivity of an atomic clock
using coherent population
trapping,
J. Li, G. R. M. da Silva, S. Kain,
G. Pati, R. Tripathi,
and S. M. Shahriar,
Physical Review A 106,
013112; doi:10.1103/PhysRevA.106.013112, (2022).
 Bidirectional Superluminal
Ring Lasers without Crosstalk
and Gain Competition,
R. Zhu, N. Condon, D. Hileman,
J. Bonacum and S. M. Shahriar,
Appl. Phys. Lett. 120,
251105; doi:10.1063/5.0093164, (2022).
 Observation of
a Highly Superluminal Laser
Employing Optically Pumped
Raman Gain and Depletion,
Z. Zhou, N. Condon, D. Hileman,
and S. M. Shahriar, Optics Express 30,
6746; doi:10.1364/OE.451132, (2022).
 Search for
Gravitational Waves
Associated with
GammaRay Bursts Detected
by Fermi and Swift During
the LIGOVirgo Run O3b,
R. Abbott, M.S. Shahriar, et
al., to appear in The Astrophysical
Journal (2022).
 Search for intermediate
mass black hole binaries
in the third observing run of
Advanced LIGO and
Advanced Virgo,
R. Abbott, M.S. Shahriar, et
al., Astronomy and Astrophysics
659 ,A84 (2022).
 High Sensitivity
MultiAxes Rotation
Sensing Using Large
Momentum Transfer Point
Source Atom Interferometry,
J. Li, G. R. M. da Silva,
W. C. Huang, M. Fouda, J. Bonacum, T. Kovachy,
and S. M. Shahriar, Atoms 9,
51; doi:10.3390/atoms9030051, (2021).
 Integration of a
PQ:PMMA holographic memory
device into the hybrid
optoelectronic correlator
for shift, scale,
and rotation invariant
target recognition,
J. Gamboa, T. Hamidfar,
and S. M. Shahriar,
Optics Express 29,
24, 40194 (2021).
 Determination of
the refractive index modulation of
PQ:PMMA holographic phase gratings
over a large spectral range
through a twolevel approximation
of the electric susceptibility,
J. Gamboa, T. Hamidfar,
J. Bonacum, and S. M. Shahriar,
Optics Materials Express 11,
11, 3627 (2021).
 Thick PQ:PMMA
transmission holograms for
freespace optical communication
via wavelengthdivision
multiplexing,
J. Gamboa, T. Hamidfar, J. Vonckx,
M. Fouda, and S. M. Shahriar,
Applied Optics 60,
28, 8851 (2021).
 Allsky search
for short gravitationalwave
bursts in the third
Advanced LIGO and
Advanced Virgo run,
R. Abbott, M.S. Shahriar, et
al., Physical Review D 104,
122004 (2021).
 Search for
Lensing Signatures in
the GravitationalWave
Observations from
the First Half of LIGO–Virgo’s
Third Observing Run,
R. Abbott, M.S. Shahriar, et
al., The Astrophysical Journal, 923,
14 (2021).
 Constraints
from LIGO O3 Data on
Gravitationalwave
Emission Due to Rmodes
in the Glitching Pulsar
PSR J0537–6910,
R. Abbott, M.S. Shahriar, et
al., The Astrophysical Journal, 922,
71 (2021).
 Allsky search
for longduration
gravitationalwave bursts in
the third Advanced LIGO
and Advanced Virgo run,
R. Abbott, M.S. Shahriar, et
al., Physical Review D 104,
102001 (2021).
 Searches for
Continuous Gravitational
Waves from Young Supernova
Remnants in the Early
Third Observing Run of
Advanced LIGO and Virgo,
R. Abbott, M.S. Shahriar, et
al., The Astrophysical Journal, 921,
80 (2021).
 Allsky search
for continuous gravitational
waves from isolated
neutron stars in the
early O3 LIGO data,
R. Abbott, M.S. Shahriar, et
al., Physical Review D 104,
082004 (2021).
 Search for
anisotropic gravitationalwave
backgrounds using data
from Advanced LIGO and
Advanced Virgo’s first
three observing runs,
R. Abbott, M.S. Shahriar, et
al., Physical Review D 104,
022005 (2021).
 Upper limits
on the isotropic
gravitationalwave background
from Advanced LIGO
and Advanced Virgo’s
third observing run,
R. Abbott, M.S. Shahriar, et
al., Physical Review D 104,
022004 (2021).
 Search for
Gravitational Waves
Associated with GammaRay
Bursts Detected by Fermi
and Swift during the
LIGO–Virgo Run O3a,
R. Abbott, M.S. Shahriar, et
al., The Astrophysical Journal, 915,
86 (2021).
 Observation of
Gravitational Waves from
Two Neutron Star–Black
Hole Coalescences,
R. Abbott, M.S. Shahriar, et
al., The Astrophysical Journal Letters, 915,
L5 (2021).
 Constraints
on Cosmic Strings Using Data
from the Third Advanced
LIGO–Virgo
Observing Run,
R. Abbott, M.S. Shahriar, et
al., Physical Review Letters 126,
241102 (2021).
 Tests of General
Relativity with Binary Black
Holes from the second LIGO–Virgo
GravitationalWave
Transient Catalog,
R. Abbott, M.S. Shahriar, et
al., Physical Review D 103,
122002 (2021).
 GWTC2: Compact
Binary Coalescences Observed
by LIGO and Virgo during the
First Half of the Third
Observing Run,
R. Abbott, M.S. Shahriar, et
al., Physical Review X 11,
021053 (2021).
 Diving below
the Spindown Limit:
Constraints on
Gravitational Waves from
the Energetic Young Pulsar
PSR J05376910,
R. Abbott, M.S. Shahriar, et
al., The Astrophysical Journal Letters, 913,
L27 (2021).
 Population
Properties of Compact Objects
from the Second LIGO–Virgo
GravitationalWave
Transient Catalog,
R. Abbott, M.S. Shahriar, et
al., The Astrophysical Journal Letters, 913,
L7 (2021).
 Open data from
the first and second
observing runs of Advanced
LIGO and Advanced Virgo,
R. Abbott, M.S. Shahriar, et
al., SoftwareX 13,
100658 (2021).
 Allsky search
in early O3 LIG O data for
continuous gravitationalwave
signals from unknown neutron
stars in binary systems,
R. Abbott, M.S. Shahriar, et
al., Physical Review D 103,
064017 (2021).
 A gravitationalwave
measurement of the Hubble constant following
the second observing run of Advanced
LIGO and Virgo, B.P. Abbott,
M.S. Shahriar, et al., The Astrophysical
Journal,
909, 218 (2021).
 Electromagnetically
induced transparency in Raman
gain for realizing a
superluminal ring laser, Y.
Sternfeld, Z. Zhou, J. Scheuer and
S.M. Shahriar, Optics Express
29 (2), 1125 (2021).
 Enhancing
Sensitivity of an Atom
Interferometer to the Heisenberg
Limit using Increased Quantum
Noise, R. Fang, R. Sarkar,
and S.M. Shahriar, Journal of
the Optical Society of America B,
Vol. 37, No. 7, 19741986
(2020).
 Phase correlation
during twophoton resonance
process in an active cavity,
Z. Zhou, N.J. Condon, D.J.
Hileman, S.C. Tseng, and S.M.
Shahriar, Applied Optics Vol.
59, Issue 3, pp. 866872
(2020).

Gravitationalwave Constraints
on the Equatorial Ellipticity of
Millisecond Pulsars , R.
Abbott, M.S. Shahriar, et al., The
Astrophysical Journal Letters,
902, L21 (2020).
 Prospects for
observing and localizing
gravitationalwave transients
with Advanced LIGO, Advanced
Virgo and KAGRA, B.P.
Abbott, M.S. Shahriar, et al., Living
Reviews in Relativity 23,
3 (2020).
 GW190521: A
Binary Black Hole Merger with a
Total Mass of 150 M⊙, R. Abbott,
M.S. Shahriar, et al., Physical
Review Letters, 125,
101102 (2020).
 Properties and
Astrophysical Implications of
the 150 M⊙ Binary Black Hole
Merger GW190521, R. Abbott,
M.S. Shahriar, et al., The
Astrophysical Journal Letters,
900, L13 (2020).
 GW190412:
Observation of a
binaryblackhole coalescence
with asymmetric masses, R.
Abbott, M.S. Shahriar, et al.,
Physical Review D, 102,
043015 (2020).
 GW190814:
Gravitational Waves from the
Coalescence of a 23 Solar Mass
Black Hole with a 2.6 Solar Mass
Compact Object, R. Abbott,
M.S. Shahriar, et al., The
Astrophysical Journal Letters,
896, L44 (2020).
 A Joint FermiGBM
and LIGO/Virgo Analysis of
Compact Binary Mergers from the
First and Second
Gravitationalwave Observing
Runs, R. Hamburg, M.S.
Shahriar, et al., The
Astrophysical Journal, 893,
100, (2020).
 Optically
targeted search for
gravitational waves emitted by
corecollapse supernovae during
the first and second observing
runs of advanced LIGO and
advanced Virgo, B.P. Abbott,
M.S. Shahriar, et al., Physical
Review D, 101,
084002 (2020).
 GW190425:
Observation of a Compact Binary
Coalescence with Total Mass ~
3.4 M⊙, B.P. Abbott,
M.S. Shahriar, et al., The
Astrophysical Journal Letters,
892, L3 (2020).
 A guide to
LIGOVirgo detector noise and
extraction of transient
gravitationalwave signals,
B.P. Abbott, M.S. Shahriar, et
al., Class. Quantum Grav.
37, 055002 (2020).
 Model comparison
from LIGOVirgo data on
GW170817's binary components and
consequences for the merger
remnant, B.P. Abbott, M.S.
Shahriar, et al., Class.
Quantum Grav. 37,
045006 (2020).
 A superluminal
Raman laser with enhanced cavity
length sensitivity, Z. Zhou,
M. Zhou and S.M. Shahriar, Optics
Express 27,
2973929745 (2019).
 Demonstration of
shift, scale, and rotation
invariant target recognition
using the hybrid optoelectronic
correlator, J. Gamboa, M.
Fouda and M.S. Shahriar, Opt.
Express 27 (12),
16507, (2019).
 Search for
gravitational waves from
Scorpius X1 in the second
Advanced LIGO observing run with
an improved hidden Markov model,
B.P. Abbott, M.S. Shahriar, et
al., Phys. Rev. D 100,
122002 (2019).
 Tests of general
relativity with the binary black
hole signals from the LIGOVirgo
catalog GWTC1, B.P. Abbott,
M.S. Shahriar, et al., Phys.
Rev. D 100, 104036
(2019).
 Search for
Gravitationalwave Signals
Associated with GammaRay Bursts
during the Second Observing Run
of Advanced LIGO and Advanced
Virgo, B. P. Abbott, M.S.
Shahriar, et al., The
Astrophysical Journal, 886,
75 (2019).
 Search for
Subsolar Mass Ultracompact
Binaries in Advanced LIGO's
Second Observing Run, B.P.
Abbott, M.S. Shahriar, et al., Phys.
Rev. Letts. 123,
161102 (2019).
 Search for
Eccentric Binary Black Hole
Mergers with Advanced LIGO and
Advanced Virgo during Their
First and Second Observing Runs,
B. P. Abbott, M.S. Shahriar, et
al., The Astrophysical Journal,
883, 149 (2019).
 Search for
intermediate mass black hole
binaries in the first and second
observing runs of the Advanced
LIGO and Virgo network, B.P.
Abbott, M.S. Shahriar, et al., Phys.
Rev. D 100, 064064
(2019).
 Binary Black Hole
Population Properties Inferred
from the First and Second
Observing Runs of Advanced LIGO
and Advanced Virgo, B. P.
Abbott, M.S. Shahriar, et al., The
Astrophysical Journal Letters,
882, L24 (2019).
 GWTC1: A
GravitationalWave Transient
Catalog of Compact Binary
Mergers Observed by LIGO and
Virgo during the First and
Second Observing Runs, B. P.
Abbott, M.S. Shahriar, et al.,
Phys. Rev. X 9,
031040 (2019).
 Directional
limits on persistent
gravitational waves using data
from Advanced LIGO's first two
observing runs, B. P.
Abbott, M.S. Shahriar, et al., Phys.
Rev. D 100, 062001
(2019).
 Search for the
isotropic stochastic background
using data from Advanced LIGO's
second observing run, B.P.
Abbott, M.S. Shahriar, et al., Phys.
Rev. D 100,
061101(R) (2019).
 Allsky search for
short gravitationalwave bursts
in the second Advanced LIGO and
Advanced Virgo run, B.P.
Abbott, M.S. Shahriar, et al., Phys.
Rev. D 100, 024017
(2019).
 Allsky search
for continuous gravitational
waves from isolated neutron
stars using Advanced LIGO O2
data, B.P. Abbott, M.S.
Shahriar, et al., Phys. Rev. D
100, 024004 (2019).
 Tests of General
Relativity with GW170817,
B.P. Abbott, M.S. Shahriar, et
al., Phys. Rev. Letts. 123,
011102 (2019).
 Searches for
Gravitational Waves from Known
Pulsars at Two Harmonics in
20152017 LIGO Data, B. P.
Abbott, M.S. Shahriar, et al.,
The Astrophysical Journal, 879,
10 (2019).
 Narrowband search
for gravitational waves from
known pulsars using the second
LIGO observing run, B.P.
Abbott, M.S. Shahriar, et al., Phys.
Rev. D 99, 122002
(2019).
 Allsky search for
longduration gravitationalwave
transients in the second
Advanced LIGO observing run,
B.P. Abbott, M.S. Shahriar, et
al., Phys. Rev. D 99,
104033 (2019).
 First Measurement
of the Hubble Constant from a
Dark Standard Siren using the
Dark Energy Survey Galaxies and
the LIGO/Virgo BinaryBlackhole
Merger GW170814, M.
SoaresSantos, M.S. Shahriar, et
al., The Astrophysical Journal
Letters, 876, L7
(2019).
 Lowlatency
Gravitationalwave Alerts for
Multimessenger Astronomy during
the Second Advanced LIGO and
Virgo Observing Run, B. P.
Abbott, M.S. Shahriar, et al., The
Astrophysical Journal, 875,
161 (2019).
 Search for
Gravitational Waves from a
Longlived Remnant of the Binary
Neutron Star Merger GW170817,
B. P. Abbott, M.S. Shahriar, et
al., The Astrophysical
Journal, 875, 160
(2019).
 Searches for
Continuous Gravitational Waves
from 15 Supernova Remnants and
Fomalhaut b with Advanced LIGO,
B. P. Abbott, M.S. Shahriar, et
al., The Astrophysical Journal,
875, 122 (2019).
 Search for
Transient Gravitationalwave
Signals Associated with Magnetar
Bursts during Advanced LIGO's
Second Observing Run, B. P.
Abbott, M.S. Shahriar, et al., The
Astrophysical Journal, 874,
163 (2019).
 Constraining
the pModegMode Tidal
Instability with GW170817,
B.P. Abbott, M.S. Shahriar, et
al., Phys. Rev. Letts. 122,
061104 (2019).
 A Fermi GammaRay
Burst Monitor Search for
Electromagnetic Signals
Coincident with
GravitationalWave Candidates in
Advanced Ligo's First Observing
Run, E. Burns, M.S.
Shahriar, et al., The
Astrophysical Journal, 871,
90 (2019).
 Search for
Multimessenger Sources of
Gravitational Waves and
Highenergy Neutrinos with
Advanced LIGO during its first
Observing Run, Antares and
IceCube, A. Albert, M.S.
Shahriar, et al., The
Astrophysical Journal, 871,
134 (2019).
 Properties of the
binary neutron star merger
GW170817, B. P. Abbott,
M.S. Shahriar, et al., Phys.
Rev. X 9, 011001
(2019).
 HighComptonfrequency,
parityindependent, mesoscopic
Schrödingercatstate atom
interferometer with
Heisenberglimited sensitivity,
R. Sarkar, R. Fang and M.S.
Shahriar, Phys. Rev. A 98,
013636, (2018).
 Optomechanical
resonator as a negative
dispersion medium for enhancing
the sensitivity bandwidth in a
gravitationalwave detector, M.
Zhou and M. S. Shahriar, Phys.
Rev. D 98, 022003,
(2018).
 Phaselocked
bifrequency Raman lasing in a
double? system, Hadiseh
Alaeian and M. S. Shahriar, Phys.
Rev. A 97, 053829,
(2018).
 Pulsed Coherent
Population Trapping with
Repeated Queries for Producing
SinglePeaked High Contrast
Ramsey Interference, Z.
Warren, M. S. Shahriar, R.
Tripathi, and G. S. Pati, Journal
of Applied Physics 123,
053101, (2018).
 Effect of cascaded
Brillouin lasing due to resonant
pumps in a superluminal fiber
ring laser gyroscope, M.F.
Fouda, M. Zhou, H.N. Yum, and M.S.
Shahriar, to appear in Optical
Engineering (2018).
 Search for
subsolar mass ultracompact
binaries in Advanced LIGO's
first observing run, B.P.
Abbott, M.S. Shahriar, et al., to
appear in Phys. Rev. Letts.
(2018).
 GW170817:
Measurements of Neutron Star
Radii and Equation of State, B.P.
Abbott, M.S. Shahriar, et al., Phys.
Rev. Letts. 121,
161101, (2018).
 Erratum: GW170104:
Observation of a 50SolarMass
Binary Black Hole Coalescence at
Redshift 0.2 [Phys. Rev. Lett.
118, 221101 (2017)], B.P.
Abbott, M.S. Shahriar, et al., Phys.
Rev. Letts. 121,
129901(E), (2018).
 Erratum: First
narrowband search for
continuous gravitational waves
from known pulsars in advanced
detector data [Phys. Rev. D 96,
122006 (2017)], B.P.
Abbott, M.S. Shahriar, et al., Phys.
Rev. D 97,
129903(E), (2018).
 Search for Tensor,
Vector, and Scalar Polarizations
in the Stochastic
GravitationalWave Background, B.P.
Abbott, M.S. Shahriar, et al., Phys.
Rev. Letts. 120,
201102, (2018).
 Full band allsky
search for periodic
gravitational waves in the O1
LIGO data, B.P. Abbott,
M.S. Shahriar, et al., Phys.
Rev. D 97, 102003,
(2018).
 Constraints on
cosmic strings using data from
the first Advanced LIGO
observing run, B.P. Abbott,
M.S. Shahriar, et al., Phys.
Rev. D 97, 102002,
(2018).
 GW170817:
Implications for the Stochastic
GravitationalWave Background
from Compact Binary
Coalescences, B.P. Abbott,
M.S. Shahriar, et al., Phys.
Rev. Letts. 120,
091101, (2018).
 Allsky search for
longduration gravitational wave
transients in the first Advanced
LIGO observing run, B.P.
Abbott, M.S. Shahriar, et al., Class.
Quantum Grav. 35,
065009, (2018).
 Effects of data
quality vetoes on a search for
compact binary coalescences in
Advanced LIGO's first observing
run, B.P. Abbott, M.S.
Shahriar, et al., Class.
Quantum Grav. 35,
065010, (2018).
 First Search for
Nontensorial Gravitational Waves
from Known Pulsars, B.P.
Abbott, M.S. Shahriar, et al., Phys.
Rev. Letts. 120,
031104, (2018).
 Prospects for
observing and localizing
gravitationalwave transients
with Advanced LIGO, Advanced
Virgo and KAGRA, B.P.
Abbott, M.S. Shahriar, et al., Living
Review in Relativity 21,
3, (2018).
 Demonstration of a
highly subluminal laser with
suppression of cavity length
sensitivity by nearly three
orders of magnitude, J.
Yablon, Z. Zhou, N. J. Condon, D.
J. Hileman, S. C. Tseng, and M.S.
Shahriar, Optics Express 25
(24), 30327, (2017).
 Fastlight
Enhanced Brillouin Laser Based
Active Fiber Optic Sensor for
Simultaneous Measurement of
Rotation and Strain, M.
Zhou, Z. Zhou, M. Fouda, N.J.
Condon, J. Scheuer, and M.S.
Shahriar, Journal of Lightwave
Technology 35 (23),
5222, (2017).
 Realization of a
Gain with Electromagnetically
Induced Transparency System
using Nondegenerate Zeeman
Sublevels in 87Rb, M. Zhou,
Z. Zhou, and S.M. Shahriar, Optics
Communications 402,
382388, (2017).
 GW170608:
Observation of a 19 Solarmass
Binary Black Hole Coalescence, B.P.
Abbott, M.S. Shahriar et al., The
Astrophysical Journal Letters
851, L35, (2017).
 Search for
Postmerger Gravitational Waves
from the Remnant of the Binary
Neutron Star Merger GW170817, B.P.
Abbott, M.S. Shahriar et al., The
Astrophysical Journal Letters
851, L16, (2017).
 First narrowband
search for continuous
gravitational waves from known
pulsars in advanced detector
data, B.P. Abbott, M.S.
Shahriar et al., Phys. Rev. D
96, 122006, (2017).
 First
lowfrequency Einstein@Home
allsky search for continuous
gravitational waves in Advanced
LIGO data, B.P. Abbott,
M.S. Shahriar et al., Phys.
Rev. D 96, 122004,
(2017).
 A
gravitationalwave standard
siren measurement of the Hubble
constant, B.P. Abbott, M.S.
Shahriar et al., Nature 551,
85; doi:10.1038/nature24471,
(2017).
 GW170817:
Observation of Gravitational
Waves from a Binary Neutron Star
Inspiral, B.P. Abbott, M.S.
Shahriar et al., Phys. Rev.
Letts. 119, 161101,
(2017).
 Search for
Highenergy Neutrinos from
Binary Neutron Star Merger
GW170817 with ANTARES, IceCube,
and the Pierre Auger
Observatory, A. Albert,
M.S. Shahriar et al., The
Astrophysical Journal Letters
850, L35, (2017).
 On the Progenitor
of Binary Neutron Star Merger
GW170817, B.P. Abbott, M.S.
Shahriar, et al., The
Astrophysical Journal Letters
850, L40, (2017).
 Estimating the
Contribution of Dynamical Ejecta
in the Kilonova Associated With
GW170817, B.P. Abbott, M.S.
Shahriar, et al., The
Astrophysical Journal Letters
850, L39, (2017).
 Gravitational
waves and gamma rays from a
binary neutron star merger:
GW170817 and GRB 170817A, B.P.
Abbott, M.S. Shahriar, et al., The
Astrophysical Journal Letters
848, L13, (2017).
 GW170814: A
threedetector observation of
gravitational waves from a
binary black hole coalescence, B.P.
Abbott, M.S. Shahriar, et al., Phys.
Rev. Letts. 119,
141101, (2017).
 MultiMessenger
Observations of a Binary Neutron
Star Merger, B.P. Abbott,
M.S. Shahriar, et al., The
Astrophysical Journal Letters
848, L12, (2017).
 Upper Limits on
Gravitational Waves from
Scorpius X1 from a Modelbased
Crosscorrelation Search in
Advanced LIGO Data, B.P.
Abbott, M.S. Shahriar, et al., The
Astrophysical Journal 847,
47, (2017).
 Allsky search for
periodic gravitational waves in
the O1 LIGO data, B.P.
Abbott, M.S. Shahriar, et al., Physical
Review D 96, 062002,
(2017).
 Search for
highenergy neutrinos from
gravitational wave event
GW151226 and candidate LVT151012
with ANTARES and IceCube, A.
Albert, M.S. Shahriar, et al., Physical
Review D 96, 022005,
(2017).
 Search for
intermediate mass black hole
binaries in the first observing
run of Advanced LIGO, B.P.
Abbott, M.S. Shahriar, et al., Physical
Review D 96, 022001,
(2017).
 Search for
gravitational waves from
Scorpius X1 in the first
Advanced LIGO observing run with
a hidden Markov model, B.P.
Abbott, M.S. Shahriar, et al., Physical
Review D 95, 122003,
(2017).
 Search for
Gravitational Waves Associated
with GammaRay Bursts during the
First Advanced LIGO Observing
Run and Implications for the
Origin of GRB 150906B, B.P.
Abbott, M.S. Shahriar, et al., The
Astrophysical Journal 841,
89, (2017).
 Search for
continuous gravitational waves
from neutron stars in globular
cluster NGC 6544, B.P.
Abbott, M.S. Shahriar, et al., Physical
Review D 95, 082005,
(2017).
 First Search for
Gravitational Waves from Known
Pulsars with Advanced LIGO, B.P.
Abbott, M.S. Shahriar, et al., The
Astrophysical Journal 839,
12, (2017).
 Experimental and
Theoretical Comparison of
Different Optical Excitation
Schemes for a Compact Coherent
Population Trapping Rb Vapor
Clock, Z. Warren, M.S.
Shahriar, R. Tripathi and G.S.
Pati, Metrologia 54,
418431, (2017).
 GW170104:
Observation of a 50solarmass
binary black hole coalescence at
redshift 0.2, B.P. Abbott,
M.S. Shahriar, et al., Phys.
Rev. Letts. 118,
221101, (2017).
 Experimental
demonstration of the hybrid
optoelectronic correlator for
target recognition, M. S.
Monjur, S. Tseng, M. F. Fouda, and
S. M. Shahriar, Applied Optics
56, Issue 10, 27542759,
(2017).
 Analytical
transfer function for the
nonlinear response of a resonant
media in the spatiotemporal
fourier transformed domain, M.S.
Monjur, M.F. Fouda, and S.M.
Shahriar, Journal of the
Optical Society of America B
34, Issue 2, 397403,
(2017).
 Effects of
waveform model systematics on
the interpretation of GW150914,
B. P. Abbott, M.S. Shahriar,
et al., Class. Quantum Grav.
34, 104002, (2017).
 Calibration of the
Advanced LIGO detectors for the
discovery of the binary
blackhole merger GW150914, B.
P. Abbott, M.S. Shahriar, et al.,
Phys. Rev. D 95,
062003, (2017).
 Directional Limits
on Persistent Gravitational
Waves from Advanced LIGO's First
Observing Run, B. P.
Abbott, M.S. Shahriar, et al., Phys.
Rev. Letts. 118,
121102, (2017).
 Upper Limits on
the Stochastic
GravitationalWave Background
from Advanced LIGO's First
Observing Run, B. P.
Abbott, M.S. Shahriar, et al., Phys.
Rev. Letts. 118,
121101, (2017).
 Allsky search for
short gravitationalwave bursts
in the first Advanced LIGO run,
B. P. Abbott, M.S. Shahriar,
et al., Phys. Rev. D 95,
042003, (2017).
 Exploring the
sensitivity of next generation
gravitational wave detectors, B.
P. Abbott, M.S. Shahriar, et al.,
Class. Quantum Grav. 34,
044001, (2017).
 The Rate of Binary
Black Hole Mergers Inferred From
Advanced Ligo Observations
Surrounding GW150914, B. P.
Abbott, M.S. Shahriar, et al., The
Astrophysical Journal Letters
833, L1, (2016).
 Upper Limits on
The Rates of Binary Neutron Star
and Neutron StarBlack Hole
Mergers From Advanced Ligo's
First Observing Run, B. P.
Abbott, M.S. Shahriar, et al., The
Astrophysical Journal Letters
832, L21, (2016).
 Results of the
deepest allsky survey for
continuous gravitational waves
on LIGO S6 data running on the
Einstein@Home volunteer
distributed computing project, B.
P. Abbott, M.S. Shahriar, et al.,
Phys. Rev. D 94,
102002, (2016).
 First targeted
search for gravitationalwave
bursts from corecollapse
supernovae in data of
firstgeneration laser
interferometer detectors, B.
P. Abbott, M.S. Shahriar, et al.,
Phys. Rev. D 94,
102001, Nov. 15 (2016).
 Binary Black Hole
Mergers in the First Advanced
LIGO Observing Run, B. P.
Abbott, M.S. Shahriar, et al., Phys.
Rev. X 6, 041015
(2016).
 The basic physics
of the binary black hole merger
GW150914, B. P. Abbott,
M.S. Shahriar, et al., Ann.
Phys. (Berlin), 117 (2016).
 Improved Analysis
of GW150914 Using a Fully
SpinPrecessing Waveform Model,
B. P. Abbott, M.S. Shahriar,
et al., Physical Review X
6, 041014 (2016).
 Directly comparing
GW150914 with numerical
solutions of Einstein's
equations for binary black hole
coalescence, B. P. Abbott,
M.S. Shahriar, et al., Physical
Review D 94, 064035
(2016).
 Comprehensive
allsky search for periodic
gravitational waves in the sixth
science run LIGO data, B.
P. Abbott, M.S. Shahriar, et al.,
Physical Review D 94,
042002 (2016).
 Generation of
Arbitrary Lithographic Patterns
Using BEC Interferometry, M.F.
Fouda, R. Fang, J. B. Ketterson
and M.S. Shahriar, Physical
Review A 94,
063644(2016).
 Theoretical
modeling and experimental
demonstration of Raman probe
induced spectral dip for
realizing a superluminal laser,
Joshua Yablon, Zifan Zhou,
Minchuan Zhou, Ye Wang, S. Tseng,
and M.S. Shahriar, Optics
Express 24, No.24,
2744427456 (2016).
 GW151226:
Observation of Gravitational
Waves from a 22SolarMass
Binary Black Hole Coalescence, B.
P. Abbott, M.S. Shahriar, et al.,
Physical Review Letters 116,
241103 (2016).
 Properties of the
Binary Black Hole Merger
GW150914, B. P. Abbott,
M.S. Shahriar, et al., Physical
Review Letters 116,
241102 (2016).
 Tests of General
Relativity with GW150914, B.
P. Abbott, M.S. Shahriar, et al.,
Physical Review Letters 116,
221101 (2016).
 GW150914: The
Advanced LIGO Detectors in the
Era of First Discoveries, B.
P. Abbott, M.S. Shahriar, et al.,
Physical Review Letters 116,
131103 (2016).
 GW150914:
Implications for the Stochastic
GravitationalWave Background
from Binary Black Holes, B.
P. Abbott, M.S. Shahriar, et al.,
Physical Review Letters 116,
131102 (2016).
 Highenergy
neutrino followup search of
gravitational wave event
GW150914 with ANTARES and
IceCube, B. P. Abbott, M.S.
Shahriar, et al., Physical
Review D 93, 122010
(2016).
 Search for
transient gravitational waves in
coincidence with shortduration
radio transients during
20072013, B. P. Abbott,
M.S. Shahriar, et al., Physical
Review D 93, 122008
(2016).
 Observing
gravitationalwave transient
GW150914 with minimal
assumptions, B. P. Abbott,
M.S. Shahriar, et al., Physical
Review D 93, 122004
(2016).
 GW150914: First
results from the search for
binary black hole coalescence
with Advanced LIGO, B. P.
Abbott, M.S. Shahriar, et al., Physical
Review D 93, 122003
(2016).
 Search of the
Orion spur for continuous
gravitational waves using a
loosely coherent algorithm on
data from LIGO interferometers,
J. Aasi, M.S. Shahriar, et
al., Physical Review D 93,
042006 (2016).
 Characterization
of transient noise in Advanced
LIGO relevant to gravitational
wave signal GW150914, B P
Abbott, M.S. Shahriar, et al., Class.
Quantum Grav. 33,
134001 (2016).
 Localization And
Broadband Followup Of The
GravitationalWave Transient
GW150914, B. P. Abbott,
M.S. Shahriar, et al., The
Astrophysical Journal Letters
826, L13 (2016).
 Observation of
Gravitational Waves from a
Binary Black Hole Merger, J.
Aasi, M.S. Shahriar, et al., Physical
Review Letters 116,
061102 (2016).
 First low
frequency allsky search for
continuous gravitational wave
signals, J. Aasi, M.S.
Shahriar, et al., Physical
Review D 93, 042007
(2016).
 Allsky search for
longduration gravitational wave
transients with initial LIGO, B.
P. Abbott, M.S. Shahriar, et al.,
Physical Review D 93,
042005 (2016).
 Prospects for
Observing and Localizing
GravitationalWave Transients
with Advanced LIGO and Advanced
Virgo, B. P. Abbott, M.S.
Shahriar, et al., Living Rev.
Relativity 19, 1
(2016).
 Astrophysical
Implications Of The Binary Black
Hole Merger GW150914, B. P.
Abbott, M.S. Shahriar, et al., The
Astrophysical Journal Letters
818, L22 (2016).
 All optical three
dimensional spatiotemporal
correlator for automatic event
recognition using a multiphoton
atomic system, Mehjabin
S.Monjur, MohamedF.Fouda,
SelimM.Shahriar, Optics
Communications 381,
418432 (2016).
 Modeling and
analysis of an ultrastable
subluminal laser, Zifan
Zhou, Joshua Yablon, Minchuan
Zhou, Ye Wang, Alexander Heifetz,
M.S. Shahriar, Optics
Communications 358,
619 (2016).
 Catastrophic
breakdown of the Caves model for
quantum noise in some
phaseinsensitive linear
amplifiers or attenuators based
on atomic systems, Minchuan
Zhou, Zifan Zhou, and Selim M.
Shahriar, Physical Review A
93, 033858 (2016).
 Searches For
Continuous Gravitational Waves
from Nine Young Supernova
Remnants, J. Aasi, M.S.
Shahriar, et al., The
Astrophysical Journal 813,
39 (2015).
 Narrowband search
of continuous gravitationalwave
signals from Crab and Vela
pulsars in Virgo VSR4 data, J
Aasi, M.S. Shahriar, et al., Physical
Review D 91, 022004
(2015).
 Searching for
stochastic gravitational waves
using data from the two
colocated LIGO Hanford
detectors, J Aasi, M.S.
Shahriar, et al., Physical
Review D 91, 022003
(2015).
 Characterization
of the LIGO detectors during
their sixth science run, J
Aasi, M.S. Shahriar, et al., Class.
Quantum Grav. 32,
115012 (2015).
 Directed search
for gravitational waves from
Scorpius X1 with initial LIGO
data, J Aasi, M.S.
Shahriar, et al., Physical
Review D 91, 062008
(2015).
 Advanced LIGO, J
Aasi, M.S. Shahriar, et al., Class.
Quantum Grav. 32,
074001 (2015).
 Rydberg assisted
light shift imbalance induced
blockade in an atomic ensemble,
Y. Tu, M. E. Kim, and M.S.
Shahriar, Optics
Communications 339,
157166 (2015).
 Quantum noise
limits in
whitelightcavityenhanced
gravitational wave detectors, Minchuan
Zhou, Zifan Zhou, and Selim M.
Shahriar, Physical Review D
92, 082002 (2015).
 Natom
collectivestate atomic clock
with ?Nfold increase in
effective frequency and ?Nfold
reduction in fringe width, May
E. Kim, Resham Sarkar, Renpeng
Fang, and Selim M. Shahriar, Physical
Review A 91, 063629
(2015).
 Natom
collectivestate atomic
interferometer with ultrahigh
Compton frequency and ultrashort
de Broglie wavelength, with ?N
reduction in fringe width, Resham
Sarkar, May E. Kim, Renpeng Fang,
and Selim M. Shahriar, Physical
Review A 92, 063612
(2015).
 Lasing dynamics of
super and sub luminal lasers, Jacob
Scheuer, and Selim M. Shahriar, Optics
Express 23, No.25,
3235032366 (2015).
 Computational
studies of light shift in a
RamanRamsey interferencebased
atomic clock, G. S. Pati,
Z. Warren, N. Yu, and M.S.
Shahriar, J. Opt. Soc. Am. B
32, No.3, 388394 (2015).
 Highspeed
modulation in ladder transitions
in Rb atoms using highpressure
buffer gas, Subramanian
Krishnamurthy, Y. Wang, Y. Tu, S.
Tseng, and M.S. Shahriar, Optics
Express 23, No.9,
1147011482 (2015).
 Effect of
multiorder harmonics in a
doubleRaman pumped gain medium
for a superluminal laser, Ye
Wang, Zifan Zhou, Joshua Yablon,
and Selim Shahriar, Optical
Engineering 54(5),
057106 (2015).
 Effects of
nonidealities and quantization
of the center of mass motion on
symmetric and asymmetric
collective states in a
collective state atomic
interferometer, R. Sarkar,
M. E. Kim, R. Fang, Y. Tu, and
M.S. Shahriar, Journal of
Modern Optics 62,
12531263 (2015).
 Optically
controlled waveplate at a
telecom wavelength using a
ladder transition in Rb atoms
for alloptical switching and
high speed Stokesmetric imaging,
Subramanian Krishnamurthy, Y.
Tu, Y. Wang, S. Tseng, and M.S.
Shahriar, Optics Express 22
No. 23, 2889828913 (2014).
 Incorporation of
Polar Mellin Transform in a
Hybrid Optoelectronic Correlator
for Scale and Rotation Invariant
Target Recognition, Mehjabin
S. Monjur, Shih Tseng, Renu
Tripathi, and M.S. Shahriar, J.
Opt. Soc. Am. A 31
No. 6, 12591272 (2014).
 First allsky
search for continuous
gravitational waves from unknown
sources in binary systems, J.
Aasi, M.S. Shahriar, et al., Physical
Review D 90, 062010
(2014).
 Implementation of
an Fstatistic allsky search
for continuous gravitational
waves in Virgo VSR1 data, J.
Aasi, M.S. Shahriar, et al., Classical
and Quantum Gravity 31,
165014 (2014).
 Search for
Gravitational Waves Associated
with ?ray Bursts Detected by
the Interplanetary Network, J.
Aasi, M.S. Shahriar, et al., Physical
Review Letters 113,
011102 (2014).
 Methods and
results of a search for
gravitational waves associated
with gammaray bursts using the
GEO 600, LIGO, and Virgo
detectors, J. Aasi, M.S.
Shahriar, et al., Physical
Review D 89, 122004
(2014).
 Search for
gravitational radiation from
intermediate mass black hole
binaries in data from the second
LIGOVirgo joint science run, J.
Aasi, M.S. Shahriar, et al., Physical
Review D 89, 122003
(2014).
 Search for
gravitational wave ringdowns
from perturbed intermediate mass
black holes in LIGOVirgo data
from 20052010, J. Aasi,
M.S. Shahriar, et al., Physical
Review D 89, 102006
(2014).
 The NINJA2
project: detecting and
characterizing gravitational
waveforms modelled using
numerical binary black hole
simulations, J. Aasi, M.S.
Shahriar, et al., Classical
and Quantum Gravity 31,
115004 (2014).
 Gravitational
Waves From Known Pulsars:
Results From The Initial
Detector Era, J. Aasi, M.S.
Shahriar, et al., The
Astrophysical Journal 785
119 (2014).
 Constraints on
Cosmic Strings from the
LIGOVirgo GravitationalWave
Detectors, J. Aasi, M.S.
Shahriar, et al., Physical
Review Letters 112,
131101 (2014).
 Application of a
Hough search for continuous
gravitational waves on data from
the fifth LIGO science run, J.
Aasi, M.S. Shahriar, et al., Classical
and Quantum Gravity 31,
085014 (2014).
 First Searches For
Optical Counterparts To
GravitationalWave Candidate
Events, J. Aasi, M.S.
Shahriar, et al., The
Astrophysical Journal,
Supplement Series 211
No. 7, 125 (2014).
 Evolution of an
Nlevel system via automated
vectorization of the Liouville
equations and application to
optically controlled
polarization rotation, M.S.
Shahriar, Ye Wang, Subramanian
Krishnamurthy, Y. Tu , G.S. Pati,
and S. Tseng, Journal of
Modern Optics 61 No.
4, 351367 (2014).
 Hybrid
Optoelectronic Correlator
Architecture for Shift Invariant
Target Recognition, Mehjabin
S. Monjur, Shih Tseng, Renu
Tripathi, John Donoghue, and M.S.
Shahriar, J. Opt. Soc. Am. A
31 No. 1, 4147 (2014).
 Optically
controlled polarizer using a
ladder transition for high speed
Stokesmetric Imaging and Quantum
Zeno Effect based optical logic,
Subramanian Krishnamurthy, Y.
Wang, S. Tseng, Y. Tu, and M.S.
Shahriar, Optics Express 21
No. 21, 2451424531 (2013).
 Trapdoor optical
buffering using topflat coupled
microring filter: the
superluminal cavity approach, J.
Scheuer and M. S. Shahriar, Optics
Letters 38 No. 18,
35343537 (2013).
 Demonstration of
white light cavity effect using
stimulated Brillouin scattering
in a fiber loop, H. N. Yum,
J. Scheuer, Senior Member, IEEE,
M. Salit, P. R. Hemmer and M. S.
Shahriar, Journal of Lightwave
Technology 31 No.
23, 38653872 (2013).
 Search for
longlived gravitationalwave
transients coincident with long
gammaray bursts, J. Aasi,
M.S. Shahriar, et al. Physical
Review D 88, 122004
(2013).
 Directed search
for continuous gravitational
waves from the Galactic center,
J. Aasi, M.S. Shahriar, et al.
Physical Review D 88,
102002 (2013).
 Enhanced
sensitivity of the LIGO
gravitational wave detector by
using squeezed states of light,
J. Aasi, M.S. Shahriar, et al.
Nature Photonics 7,
613619 (2013).
 Effective
dispersion in an inhomogeneously
broadened single mode laser, T.Y.
AbiSalloum, J. Yablon, S. Tseng,
M. Salit, and M.S. Shahriar, Journal
of Modern Optics 60
No. 11, 880885 (2013).
 The fundamental
limitations on the practical
realizations of white light
cavities, H. N. Yum, X.
Liu, P. R. Hemmer, J. Scheuer, and
M. S. Shahriar, Optics
Communications 305,
260266 (2013).
 Theoretical study
on Brillouin fiber laser sensor
based on white light cavity, O.
Kotlicki, J. Scheuer, and M.S.
Shahriar, Optics Express 20
No. 27, 2823428248 (2012).
 Visualization of
superluminal pulses inside a
white light cavity using plane
wave spatio temporal transfer
functions, H. N. Yum, Y.
J. Jang, X. Liu, and M. S.
Shahriar, Optics Express 20
No. 17, 1889818910 (2012).
 An Automated
Stokesmetric Imaging Laser Radar
System, X. Liu, S. Tseng,
R. Tripathi, and M.S. Shahriar, Optical
Engineering (2012).
 High efficiency
optical modulation at a telecom
wavelength using the quantum
Zeno effect in a ladder
transition in Rb atoms, Subramanian
Krishnamurthy, Y. Wang, Y. Tu, S.
Tseng, and M. S. Shahriar, Optics
Express 20, 13798
(2012).
 Connecting
processingcapable quantum
memories over telecommunication
links via quantum frequency
conversion M. S. Shahriar,
P. Kumar and P. R. Hemmer, J.
Phys. B: At. Mol. Opt. Phys
45, 000000 (2012).
 Observation of
query pulse length dependent
Ramsey interference in rubidium
vapor using pulsed Raman
excitation, G. S. Pati, F.
K. Fatemi, and M.S. Shahriar, Optics
Express 19, 22388
(2011).
 UltraLow Power,
Zeno Effect Based Optical
Modulation in a Degenerate
VSystem with a Tapered
Nanofiber in Atomic Vapor, K.
Salit, M. Salit, K. Subramanian,
Y. Wang, P. Kumar, and M.S.
Shahriar, Optics Express 19,
22874 (2011).
 A longdistance
quantum repeater gets one step
closer, Selim M. Shahriar,
Physics 4, 58
(2011).
 Pulse delay via
tunable white light cavities
using fiber optic resonators, H.N.
Yum, X. Liu, Y. Jang, M. Kim, and
M.S. Shahriar, Journal Of
Lightwave Technology 29,
26982705 (2011).
 White Light
Interferometric Detection of
Unpolarized Light for Complete
Stokesmetric Optical Coherence
Tomography, X. Liu, S. C.
Tseng, R. Tripathi, A. Heifetz,
and M.S. Shahriar, Optics
Communications 284,
3497–3503 (2011).
 Distortion free
pulse delay system using a pair
of tunable white light cavities,
H. N. Yum, M. E. Kim, Y. J.
Jang, and M. S. Shahriar, Optics
Express 19, 6705
(2011).
 Pumpprobe model
for the KramersKronig relations
in a laser, H.N. Yum and M.
S. Shahriar, J. Opt 12,
104018 (2010).
 Superluminal ring
laser for hypersensitive
sensing, H.N. Yum, M.
Salit, J. Yablon, K. Salit, Y.
Wang, and M.S. Shahirar, Optics
Express 18,
1765817665 (2010).
 Enhancement of
SensitivityBandwidth Product of
Interferometric Gravitational
Wave Detectors using White Light
Cavities, M. Salit and M.S.
Shahriar, Journal of Optics
12, 104014 (2010).
 Effects of
Parameter Variations and Noises
on a DoubleRaman White Light
Cavity, Q. Sun, M.S.
Shahriar, and M.S. Zubairy, Physical
Review A 81, 033826
(2010).
 Simultaneous slow
and fast light effects using
probe gain and pump depletion
via Raman gain in atomic vapor,
G.S. Pati, M. Salit, K. Salit, and
M.S. Shahriar, Optics Express
17, 87758780 (2009).
 Volumegrating
Stokesmeter based on photonic
bandgap structures, J.K.
Lee, X. Liu, and M.S. Shahriar, Applied
Optics 48, 32123215
(2009).
 A highspeed
inline holographic Stokesmeter
imaging, X. Liu, A. Heifetz,
S.C. Tseng, and M.S. Shahriar, Applied
Optics 48, 38033808
(2009).
 Optical limiting
in a periodic materials with
relaxational nonlinearity,
X. Liu, J.W. Haus, and M.S.
Shahriar, Opt. Express 17,
26962706 (2009).
 Suppression of
error in qubit rotations due to
BlochSiegert oscillation via
the use of offresonant Raman
excitation, P. Pradhan, G.C.
Cardoso, and M.S. Shahriar, J.
Phys. B.: At. Mol. Opt. Phys
42, 065501 (2009).
 Holographic
optical beam combining,
splitting and crosscoupling:
numerical analysis and
experimental investigation,
H.N.Yum, P.R. Hemmer, R. Tripathi,
and M.S. Shahriar, J.
Holography and Speckles 5,
197209 (2009).
 A simple method
for Bragg diffraction in volume
holographic gratings, A.
Heifetz, J.T. Shen, and M.S.
Shahriar, Am. J. Phys 77,
623628 (2009).
 Fastlight in a
photorefractive crystal for
gravitational wave detection,
H.N. Yum, M. Salit, G.S. Pati, S.
Tseng, P.R. Hemmer, and M.S.
Shahriar, Opt. Express 16,
2044820456 (2008).
 Application of
fastlight in gravitational wave
detection with interferometers
and resonators, M. S.
Shahriar and M. Salit, J. Mod.
Optics 55, 31333147
(2008).
 Modulation
instability for a relaxational
Kerr medium, X. Liu, J. Haus
and M.S. Shahriar, Optics Comm
281, 29072912 (2008).
 Observation of
nonlinear optical interactions
of ultralow levels of light in a
tapered optical nanofiber
embedded in a hot rubidium vapor,
S. M. Spillane, G. S. Pati, K.
Salit, M. Hall, P. Kumar, R.G.
Beausoleil, and M.S. Shahriar, Phys.
Rev. Lett 100,
233602 (2008).

Electromagnetically induced
transparency inside the laser
cavity: Switch between
firstorder and secondorder
phase transitions, Q. Sun,
M.S. Shahriar, and M.S. Zubairy, Phys.
Rev. A 78, 013805
(2008).
 Demonstration of
displacementmeasurementsensitivity
proportional to inverse group
index of intracavity medium in
a ring resonator, G.S. Pati,
M. Salit, K. Salit, and M.S.
Shahriar, Optics Comm 281,
49314935 (2008).
 Demonstration of
RamanRamsey fringes using time
delayed optical pulses in
rubidium vapor, G.S. Pati,
K. Salit, R. Tripathi, and M.S.
Shahriar, Optics Comm 281,
46764680 (2008).
 Angular
directivity of diffracted wave
in Braggmismatched readout of
volume holographic gratings,
A. Heifetz, J.T. Shen, S.C. Tseng,
G.S. Pati, J.K. Lee, and M.S.
Shahriar, Optics Comm 280,
311316 (2007).
 Fastlight for
astrophysics: supersensitive
gyroscopes and gravitational
wave detectors, M. Salit,
G.S. Pati, K. Salit, M.S.
Shahriar, J. Mod. Optics 54,
24252440 (2007).
 Lightshift
imbalance induced blockade of
collective excitations beyond
the lowest order, M.S.
Shahriar, P. Pradhan, G.S. Pati,
V. Gopal, K. Salit, Optics
Comm 278, 9498
(2007).
 Demonstration of
a tunablebandwidth whitelight
interferometer using anomalous
dispersion in atomic vapor,
G.S. Pati, M. Salit, K. Salit, and
M.S. Shahriar, Phys. Rev. Lett
99, 133601 (2007).
 Demonstration of
a spectrally scanned holographic
Stokesmeter, J.K. Lee, J.T.
Shen, and M.S. Shahriar, Optics
Comm 277, 6366
(2007).
 Quantum
communication and computing with
atomic ensembles using a
lightshiftimbalance induced
blockade, M.S. Shahriar,
G.S. Pati, and K. Salit, Phys.
Rev. A 75, 022323
(2007).
 Ultrahigh
enhancement in absolute and
relative rotation sensing using
fast and slow light, M.S.
Shahriar, G.S. Pati, R. Tripathi,
V. Gopal, M. Messall, and K.
Salit, Phys. Rev. A 75,
053807 (2007).
 Experimental
constraints of using slowlight
in sodium vapor for lightdrag
enhanced relative rotation
sensing, R. Tripathi, G.S.
Pati, M. Messall, K. Salit and
M.S. Shahriar, Optics Comm
266, 604608 (2006).
 Wavelength
locking via teleportation using
distant quantum entanglement and
BlochSiegert oscillation,
M.S. Shahriar, P. Pradhan, V.
Gopal, J. Morzinski, G. Cardoso,
G.S. Pati, Optics Comm 266,
349353 (2006).
 Shiftinvariant
realtime edgeenhanced
VanderLugt correlator using
videorate compatible
photorefractive polymer, A.
Heifetz, G.S. Pati, J.T. Shen,
J.K. Lee, M.S. Shahriar, C. Phan,
and M. Yamamoto, Applied
Optics 45, 61486153
(2006).
 Demonstration of
a thick holographic Stokesmeter,
J.K. Lee, J.T. Shen, A. Heifetz,
R. Tripathi, and M.S. Shahriar, Optics
Comm 259, 484487
(2006).

Translationinvariant object
recognition system using an
optical correlator and a
superparallel holographic
random access memory, A.
Heifetz, J.T. Shen, J.K. Lee, R.
Tripathi, M.S. Shahriar, Optical
Eng 45, 025201
(2006).
 Demonstration of
a multiwave coherent holographic
beam combiner in a polymeric
substrate, H.N. Yum, P.R.
Hemmer, A. Heifetz, J.T. Shen,
J.K. Lee, R. Tripathi, and M.S.
Shahriar, Optics Lett 30,
30123014 (2005).
 In situ detection
of the temporal and initial
phase of the second harmonic of
a microwave field via incoherent
fluorescence, G.C. Cardoso,
P. Pradhan, J. Morzinski, M.S.
Shahriar, Phys. Rev. A 71,
063408 (2005).
 Twodimensional
nanolithography using atom
interferometry, A. Gangat,
P. Pradhan, G. Pati, and M.S.
Shahriar, Phys. Rev. A 71,
043606 (2005).
 Demonstration of
a continuously guided atomic
interferometer by singlezone
optical excitation, M.S.
Shahriar, P. Pradhan, Y. Tan, M.
Jheeta, J. Morzinski, and P.R.
Hemmer, J. Opt. Soc. Am. B
22, 1566 (2005).
 Highly
polarizationsensitive thick
gratings for a holographic
Stokesmeter, M.S. Shahriar,
J.T. Shen, M.A. Hall, R. Tripathi,
J.K. Lee, and A. Heifetz, Optics
Comm 245, 6773
(2005).
 Continuously
guided atomic interferometry
using a singlezone optical
excitation: theoretical analysis,
M.S. Shahriar, M. Jheeta, Y. Tan,
P. Pradhan, A. Gangat, Optics
Comm 243, 183201
(2004).
 Infrastructure
for the quantum internet, S.
Lloyd, J.H. Shapiro, N.C. Wong, P.
Kumar, M.S. Shahriar, and H. Yuen,
ACM SIGCOMM Computer
Communications Review 34,
920 (2004).
 Demonstration of
a simple technique for
determining the M/# of a
holographic substrate by use of
a single exposure, H.N. Yum,
P.R. Hemmer, R. Tripathi, J.T.
Shen, and M.S. Shahriar, Optics
Lett 29, 17841786
(2004).
 Polarization of
holographic grating diffraction.
II. Experiment, T.W. Nee,
S.M.F. Nee, M.W. Kleinschmit, M.S.
Shahriar, J. Opt. Soc. Am. A
21, 532539 (2004).
 Ultrafast
holographic Stokesmeter for
polarization imaging in real
time, M.S. Shahriar, J.T.
Shen, R. Tripathi, M. Kleinschmit,
T.W. Nee, and S.M.F. Nee, Optics
Lett 29, 298300
(2004).
 Super efficient
absorption filter for quantum
memory using atomic ensembles in
a vapor, A. Heifetz, A.
Agarwal, G.C. Cardoso, V. Gopal,
P. Kumar, M.S. Shahriar, Optics
Comm 232, 289293
(2004).

Driverphasecorrelated
fluctuations in the rotation of
a strongly driven quantum bit,
M.S. Shahriar, P. Pradhan, and J.
Morzinski, Phys. Rev. A 69,
032308 (2004).
 Sharedhardware
alternating operation of a
superparallel holographic
optical correlator and a
superparallel holographic
random access memory, M.S.
Shahriar, R. Tripathi, M. Huq,
J.T. Shen, Optical Eng 43,
1856 (2004).
 Coherent and
incoherent beam combination
using thick holographic
substrates, M.S. Shahriar,
J. Riccobono, M. Kleinschmit, and
J.T. Shen, Optics Comm, 220,
7583 (2003).
 SuperParallel
Holographic Optical Correlator
for Ultrafast Database Search,
M.S. Shahriar, M. Kleischmit, R.
Tripathi, and J. Shen, Optics
Lett 28, 525527
(2003).
 Observation of
ultraslow and stored light
pulses in a solid. A.V.
Turukhin, V.S. Sudarshanam, M.S.
Shahriar, J.A. Musser, B.S. Ham,
and P.R. Hemmer, Phys. Rev.
Lett 88, 023602
(2002).
 Limits to clock
synchronization induced by
completely dephasing
communication channels, V.
Giovannetti, S. Lloyd, L. Maccone,
and M.S. Shahriar, Phys. Rev.
A 65, 062319 (2002).
 Twodimensional
atomic interferometry for
creation of nanostructures,
Y. Tan, J. Morzinski, A.V.
Turukhin, P.S. Bhatia, and M.S.
Shahriar, Opt. Comm 206,
141147 (2002).
 Frequency
stabilization of an extended
cavity semiconductor diode laser
for chirp cooling, J.A.
Morzinsky, P.S. Bhatia, and M.S.
Shahriar, Review of Scientific
Instruments 73,
34493453 (2002).
 Solidstate
quantum computing using spectral
holes, M.S. Shahriar, P.R.
Hemmer, P.S. Bhatia, S. Lloyd, and
A.E. Craig, Phys. Rev. A 66,
032301 (2002).
 Solidstate
quantum computing using spectral
holes, M.S. Shahriar, J.
Bowers, S. Lloyd, and P.R. Hemmer,
http://xxx.lanl.gov/pdf/quantph/0007074,
(2002).
 Largeangle,
singleorder, one and
twodimensional atomic
interferometry for creation of
nanostructures, M.S.
Shahriar and T. Zelevinsky,
http://xxx.lanl.gov/pdf/quantph/0007097,
(2002).
 Ramanexcited
spin coherences in
nitrogenvacancy color centers
in diamond, P.R. Hemmer,
A.V. Turukhin, M.S. Shahriar, and
J.A. Musser, Opt. Lett 26,
361363 (2001).
 Polarization
selective motional holeburning
for high efficiency, degenerate
optical phase conjugation in
rubidium, X.W. Xia, D.
Hsiung, P.S. Bhatia, M.S.
Shahriar, T.T. Grove, and P.R.
Hemmer, Opt. Comm 191,
347351 (2001).
 Cavity dark
states for quantum computing,
M.S. Shahriar, J.A. Bowers, B.
Demsky, P.S. Bhatia, S. Lloyd,
P.R. Hemmer, and A.E. Craig, Opt.
Comm 195, 411417
(2001).
 Long distance,
unconditional teleportation of
atomic states via complete Bell
state measurements, S.
Lloyd, M.S. Shahriar, J.H.
Shapiro, and P.R. Hemmer, Phys.
Rev. Lett 87, 167903
(2001).
 Observation of
subkilohertz resonance in
Rfoptical double resonance
experiment in rare earth ions in
solids, M.K. Kim, B.S. Ham,
P.R. Hemmer, and M.S. Shahriar, J.
Mod. Optics 47,
1713± 1728 (2000).
 Demonstration of
injection locking a diode laser
using a filtered electrooptic
modulator sideband, M.S.
Shahriar, A.V. Turukhin, T.
Liptay, Y. Tan, and P.R. Hemmer, Opt.
Comm 184, 457462
(2000).
 Teleportation and
the quantum internet, S.
Lloyd, M.S. Shahriar, and P.R.
Hemmer,
http://xxx.lanl.gov/pdf/quantph/0003147,
(2000).
 First observation
of ultraslow group velocity of
light in a solid, A.V.
Turukhin, J.A. Musser, V.S.
Sudarshanam, M.S. Shahriar, and
P.R. Hemmer,
http://xxx.lanl.gov/pdf/quantph/0010009,
(2000).
 Phase mapping of
remote clocks using quantum
entanglement, M.S. Shahriar,
http://xxx.lanl.gov/pdf/quantph/0010007,
(2000).
 Quantum
interference and its potential
applications in a spectral
holeburning solid, B.S.
Ham, M.S. Shahriar, P.R. Hemmer,
and M.K. Kim, Laser Physics
9, 788796 (1999).
 Observation of
LaserJitterEnhanced hyperfine
spectroscopy and twophoton
spectral holeburning, B.S.
Ham, P.R. Hemmer, and M.S.
Shahriar, Opt. Comm 164,
129136 (1999).
 Efficient phase
conjugation via twophoton
coherence in an optically dense
crystal, B.S. Ham, P.R.
Hemmer, and M.S. Shahriar, Phys.
Rev. A 59, 25832586
(1999).
 Raman phase
conjugate resonator for
intracavity aerooptic
turbulence aberration correction,
V.S. Sudarshanam, M.
CroninGolomb, P.R. Hemmer, and
M.S. Shahriar, Opt. Comm 160,
283288 (1999).

Electromagnetically induced
transparency over spectral
holeburning temperature in a
rareearthdoped solid, B.S.
Ham, M.S. Shahriar, and P.R.
Hemmer, J. Opt. Soc. Am. B
16, 801804 (1999).
 Enhancement of
fourwave mixing and line
narrowing by use of quantum
coherence in an optically dense
doubleL solid, B.S. Ham,
M.S. Shahriar, and P.R. Hemmer,
Opt. Lett 24, 8688
(1999).
 RF coupled
optical gain in a solid owing to
quantum interference,, B.S.
Ham, M.S. Shahriar, and P.R.
Hemmer, Optics and Photonics News,
(1998).
 Spin coherence
excitation and rephasing with
optically shelved atoms,
B.S. Ham, M.S. Shahriar, M.K. Kim,
and P.R. Hemmer, Phys. Rev. B
58, 11825 (1998).
 Generation of
squeezed states and twin beams
via nondegenerate fourwave
mixing in an ideal system,
M.S. Shahriar and P.R. Hemmer, Opt.
Comm 158, 273286
(1998).
 Ultrahigh
Density Optical Data Storage,
M.S. Shahriar, L. Wong, M. Bock,
B. Ham, and P.R. Hemmer, Symposium
on ElectroOptics: Present and
Future, 1998 Optical Society of
Americs book series on Trends in
Optics and Photonics, H.
Haus, ed., pp 97104.
 Demonstration of
a phase conjugate resonator
using degenerate fourwave
mixing via coherent population
trapping in rubidium, D.S.
Hsiung, X.W. Xia, T.T. Grove, M.S.
Shahriar, and P.R. Hemmer, Opt.
Comm 154, 7982
(1998).
 Radiofrequency
Induced Optical Gain in Pr:YSiO,
B.S. Ham, M.S. Shahriar, and P.R.
Hemmer, J. Opt. Soc. Am. B
15, 15411544 (1998).

Frequencyselective timedomain
optical data storage by
electromagnetically induced
transparency in a
rareearthdoped solid, B.S.
Ham, M.S. Shahriar, M.K. Kim, and
P.R. Hemmer, Opt. Lett 22,
18491851 (1997).
 Efficient and
fast optical phase conjugation
by use of twophotoninduced
gratings in the orientation of
angular momentum, T.T.
Grove, E. Rousseau, X.W. Xia, D.S.
Hsiung, M.S. Shahriar, and P.R.
Hemmer, Opt. Lett 22,
16771679 (1997).
 Efficient
electromagnetically induced
transparency in a rareearth
doped crystal, B.S. Ham,
P.R. Hemmer, and M.S. Shahriar, Opt.
Comm 144, 227230
(1997).
 Enhanced
nondegenerate fourwave mixing
owing to electromagnetically
induced transparency in a
spectral holeburning crystal,
B.S. Ham, M.S. Shahriar, and P.R.
Hemmer, Opt. Lett 22,
11381140 (1997).

Turbulenceaberration correction
with highspeed highgain
optical phase conjugation in
sodium vapor, V.S.
Sudarshanam, M. CroninGolomb,
P.R. Hemmer, and M.S. Shahriar, Opt.
Lett 22, 11411143
(1997).
 Distortionfree
gain and noise correlation in
sodium vapor with fourwave
mixing and coherent population
trapping, T.T. Grove, M.S.
Shahriar, P.R. Hemmer, P. Kumar,
V.S. Sudarshanam, and M.
CroninGolomb, Opt. Lett 22,
769771 (1997).
 Darkstatebased
threeelement vector model for
the stimulated Raman interaction,
M.S. Shahriar, P.R. Hemmer, D.P.
Katz, A. Lee and M.G. Prentiss, Phys.
Rev. A 55, 22722282
(1997).
 Very thick
holographic nonspatial filtering
of laser beams, J.E. Ludman,
J. Riccobono, N.O. Reinhand, I.V.
Semenova, Y.L. Korzinin, M.S.
Shahriar, H.J. Caulfield, J.M.
Fournier, and P.R. Hemmer, Opt.
Eng 36, 17001705
(1997).
 Optical spectral
holeburning with Raman coherent
population trapping, P.R.
Hemmer, M.S. Shahriar, B.S. Ham,
M.K. Kim, and Yu. Rozhdestvensky,
Mol. Cryst. Liq. Cryst 291,
287 (1996).
 Nonspatial filter
for laser beams, J.E.
Ludman, J. Riccobono, N. Reinhand,
Y.L. Korzinin, I.V. Semenova and
M.S. Shahriar, Kvantovaya
Elektron 23,
11231127 (1996).
 Selforganization,
broken symmetry, and lasing in
an atomic vapor: the
interdependence of gratings and
gain, P.R. Hemmer, N.P.
Bigelow, D.P. Katz, M.S. Shahriar,
L. DeSalvo, and R. Bonifacio, Phys.Rev.
Lett 77, 14681471
(1996).
 New opportunities
in fiberoptic sensors, S.
Ezekiel, S.P. Smith, M.S.
Shahriar, and P.R. Hemmer, J.
Lightwave Technology 13,
11891192 (1995).
 Demonstration of
a nonmagnetic blazedgrating
atomic beam splitter, K.S.
Johnson, A. Chu, T.W. Lynn, K.K.
Berggren, M.S. Shahriar, and M.
Prentiss, Opt. Lett 20,
13101312 (1995).
 Efficient
lowintensity optical phase
conjugation based on coherent
population trapping in sodium,
P.R. Hemmer, D.P Katz, J.
Donoghue, M. CroninGolomb,
M.S.Shahriar, and P. Kumar, Opt.
Lett 20, 982984
(1995).
 Semiclassical
calculation of the diffusion
constant for the ideal system
momentum, A. Chu, D.P. Katz,
M. Prentiss, M.S. Shahriar and
P.R. Hemmer, Phys. Rev. A
51, 22892293 (1995).
 Laser cooling 
Beyond one field and
onedimension, N.P. Bigelow,
T. Cai, H. Pu, J. Korn, J.
Shaffer, P.R. Hemmer, D.P. Katz,
and M.S. Shahriar, Acta
Physica Polonica A 86,
2940 (1994).
 Coolingassisted
and confinementassisted
velocity selective coherent
population trapping using
standing wave Raman excitation,
M.S. Shahriar, D.P. Katz, A. Chu,
J. Mervis, M.G. Prentiss, T. Cai,
N.P. Bigelow, P. Marte, P. Zoller
and P.R. Hemmer, Laser Physics
4, 848 (1994).

Polarizationgradientassisted
subrecoil cooling: Quantum
calculations in one dimension,
P. Marte, R. Dum, R. Taieb, P.
Zoller, M.S. Shahriar and M.
Prentiss, Phys. Rev. A 49,
48264836 (1994).
 Time domain
optical data storage using Raman
coherent population trapping,
P.R. Hemmer, M.S. Shahriar, M.K.
Kim, K.Z. Cheng, and J. Kierstead,
Opt. Lett 19,
296298 (1994).
 Phasedependent
velocity selective coherent
population trapping in a folded
threelevel system under
standing wave excitation,
M.S. Shahriar, P.R. Hemmer, M.G.
Prentiss, A. Chu, D.P. Katz and
N.P. Bigelow, Opt. Comm 103,
453460 (1993).
 Continuous
polarizationgradient
precoolingassisted
velocityselective coherent
population trapping, M.S.
Shahriar, P.R. Hemmer, M.G.
Prentiss, P. Marte, J. Mervis,
D.P. Katz, N.P. Bigelow and T.
Cai, Phys. Rev. A 48,
40354038 (1993).
 Semiconductor
laser excitation of Ramsey
fringes using a Raman transition
in a cesium atomic beam,
P.R. Hemmer, M.S. Shahriar, H.
LamelaRivera, S.P. Smith, B.E.
Bernacki, and S. Ezekiel, J.
Opt. Soc. Am. B 10,
13261329 (1993).
 First observation
of forces on three level atoms
in Raman resonant standing wave
optical fields, P.R. Hemmer,
M.S. Shahriar, M.G. Prentiss, D.P.
Katz, K. Berggren, J. Mervis,and
N.P. Bigelow, Phys. Rev. Lett
68, 31483151 (1992).
 Optical force on
the Raman dark state in two
standing waves, P.R. Hemmer,
M.G. Prentiss, M.S. Shahriar and
N.P. Bigelow, Optics Comm
89, 335342 (1992).
 Forces on three
level atoms including coherent
population trapping, M.G.
Prentiss, N.P. Bigelow, M.S.
Shahriar and P.R. Hemmer, Optics
Lett 16, 16951697
(1991).
 Direct excitation
of microwavespin dressed states
using a laserexcited resonance
Raman interaction, M.S.
Shahriar and P.R. Hemmer, Phys.
Rev. Lett 65,
18651868 (1990).
 AcStark shifts
in a two zone Raman interaction,
P.R. Hemmer, M.S. Shahriar, V.D.
Natoli, and S. Ezekiel, J. of
the Opt. Soc. of Am. B 6,
15191528 (1989).