Folgen
David Shwa
David Shwa
Bestätigte E-Mail-Adresse bei mail.huji.ac.il
Titel
Zitiert von
Zitiert von
Jahr
Automated imaging with ScanLag reveals previously undetectable bacterial growth phenotypes
I Levin-Reisman, O Gefen, O Fridman, I Ronin, D Shwa, H Sheftel, ...
Nature methods 7 (9), 737-739, 2010
1942010
Lifetime and coherence of two-level defects in a Josephson junction
Y Shalibo, Y Rofe, D Shwa, F Zeides, M Neeley, JM Martinis, N Katz
Physical review letters 105 (17), 177001, 2010
1372010
Shaping Laguerre–Gaussian laser modes with binary gratings using a digital micromirror device
V Lerner, D Shwa, Y Drori, N Katz
Optics letters 37 (23), 4826-4828, 2012
862012
Direct Wigner tomography of a superconducting anharmonic oscillator
Y Shalibo, R Resh, O Fogel, D Shwa, R Bialczak, JM Martinis, N Katz
Physical review letters 110 (10), 100404, 2013
672013
Rapidly reconfigurable optically induced photonic crystals in hot rubidium vapor
B Little, DJ Starling, JC Howell, RD Cohen, D Shwa, N Katz
Physical Review A—Atomic, Molecular, and Optical Physics 87 (4), 043815, 2013
152013
Transient coherence of media under strong phase modulation exploiting electromagnetically induced transparency
D Shwa, N Katz
Physical Review A 90 (2), 023858, 2014
112014
Heralded generation of Bell states using atomic ensembles
D Shwa, RD Cohen, A Retzker, N Katz
Physical Review A 88 (6), 063844, 2013
92013
Controllable motion of optical vortex arrays using electromagnetically induced transparency
D Shwa, E Shtranvasser, Y Shalibo, N Katz
Optics Express 20 (22), 24835-24842, 2012
72012
Using the self-filtering property of a femtosecond filament to improve second harmonic generation
D Shwa, S Eisenmann, G Marcus, A Zigler
Optics Express 17 (8), 6451-6456, 2009
42009
Power broadening effects on Electromagnetically Induced Transparency in Ne vapor
B Lubotzky, D Shwa, T Kong, N Katz, G Ron
arXiv preprint arXiv:1402.6275, 2014
12014
Coherent Beam Combination (CBC) Systems and Methods
D Golubchik, Y Segev, S David
US Patent App. 18/591,069, 2024
2024
Coherent beam combination (CBC) systems and methods
D Golubchik, Y Segev, S David
US Patent 11,973,305, 2024
2024
Coherence reconstruction apparatus for interferometric measurement of atmospheric turbulence
D Golubchik, S David, S Rogers
US Patent App. 18/287,006, 2024
2024
Multiple coherent beam combination systems with reduced number of apertures
D Golubchik, S David
US Patent App. 18/024,988, 2023
2023
Spatial and Temporal Control of Light in Atomic Vapor
D Shwa
Hebrew University of Jerusalem, 2014
2014
Transient coherence of an EIT media under strong phase modulation
D Shwa, N Katz
arXiv preprint arXiv:1312.7708, 2013
2013
All-Optical Photonic Crystal using Rubidium
B Little, N Katz, D Shwa, J Howell
Frontiers in Optics, FW5F. 3, 2012
2012
The effect of electromagnetically induced transparency on an array of optical vortices
D Shwa, N Katz
International Conference on Quantum Information, QMI31, 2011
2011
Characterizing and manipulating two level defect states in a superconducting phase circuit
N Katz, Y Shalibo, Y Rofe, D Shwa, F Zeides, M Neeley, JM Martinis
APS March Meeting Abstracts 2010, Y26. 007, 2010
2010
Creation of High Quality Broadband Mid-IR Laser Source Using Plasma Filament
D Shwa
Hebrew University of Jerusalem, 2008
2008
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20