Follow
David Dahan
Title
Cited by
Cited by
Year
Tunable all optical delay via slow and fast light propagation in a Raman assisted fiber optical parametric amplifier: a route to all optical buffering
D Dahan, G Eisenstein
Optics Express 13 (16), 6234-6249, 2005
3672005
Broad-band wavelength conversion based on cross-gain modulation and four-wave mixing in InAs-InP quantum-dash semiconductor optical amplifiers operating at 1550 nm
A Bilenca, R Alizon, V Mikhelashhvili, D Dahan, G Eisenstein, ...
Photonics Technology Letters, IEEE 15 (4), 563-565, 2003
1022003
Large tunable delay with low distortion of 10 Gbit/s data in a slow light system based on narrow band fiber parametric amplification
E Shumakher, A Willinger, R Blit, D Dahan, G Eisenstein
Optics Express 14 (19), 8540-8545, 2006
732006
Numerical comparison between distributed and discrete amplification in a point-to-point 40-Gb/s 40-WDM-based transmission system with three different modulation formats
D Dahan, G Eisenstein
Journal of lightwave technology 20 (3), 379, 2002
712002
IN-BAND OPTICAL SIGNAL TO NOISE RATIO MONITORING TECHNIQUE
DJ Dahan, U Mahlab
US Patent 20,120,219,285, 2012
612012
On the balance between delay, bandwidth and signal distortion in slow light systems based on stimulated Brillouin scattering in optical fibers
E Shumakher, N Orbach, A Nevet, D Dahan, G Eisenstein
Optics Express 14 (13), 5877-5884, 2006
602006
A self-starting hybrid optoelectronic oscillator generating ultra low jitter 10-GHz optical pulses and low phase noise electrical signals
J Lasri, A Bilenca, D Dahan, V Sidorov, G Eisenstein, D Ritter, K Yvind
Photonics Technology Letters, IEEE 14 (7), 1004-1006, 2002
422002
Security threats and protection procedures for optical networks
D Dahan, U Mahlab
IET Optoelectronics 11 (5), 186-200, 2017
322017
Optical performance monitoring for translucent/transparent optical networks
D Dahan, U Mahlab, A Teixeira, I Zacharopoulos, I Tomkos
Optoelectronics, IET 5 (1), 1-18, 2011
282011
The properties of amplified spontaneous emission noise in saturated fiber Raman amplifiers operating with CW signals
D Dahan, G Eisenstein
Optics communications 236 (4), 279-288, 2004
282004
System and method for generating multilevel coded optical signals
DJ Dahan, U Mahlab
US Patent 8,588,621, 2013
242013
Self-starting ultralow-jitter pulse source based on coupled optoelectronic oscillators with an intracavity fiber parametric amplifier
D Dahan, E Shumakher, G Eisenstein
Optics letters 30 (13), 1623-1625, 2005
242005
Clock recovery at multiple bit rates using direct optical injection locking of a self-oscillating InGaAs-InP heterojunction bipolar phototransistor
J Lasri, D Dahan, A Bilenca, G Eisenstein, D Ritter
Photonics Technology Letters, IEEE 13 (12), 1355-1357, 2001
212001
Multiplier-Free Phase Recovery With Polar-domain Multisymbol-Delay-Detector
A Tolmachev, I Tselniker, M Meltsin, I Sigron, D Dahan, A Shalom, ...
Journal of Lightwave Technology 31 (23), 3638-3650, 2013
192013
METHOD AND A NETWORK NODE FOR IMPROVING BANDWIDTH EFFICIENCY IN AN OPTICAL NETWORK
DJ Dahan, U Mahlab
US Patent 20,130,045,006, 2013
172013
Optical noise reduction in inter-band Raman mediated wavelength conversion
D Dahan, R Alizon, A Bilenca, G Eisenstein
Electronics Letters 39 (3), 307-309, 2003
162003
Noise Reduction Capabilities of a Raman-Mediated Wavelength Converter
D Dahan, A Bilenca, G Eisenstein
Optics Letter 28, 1004-1006, 2003
162003
Channel performance monitoring and an optical communication system using same
DJ Dahan, A MELAMED
US Patent App. 15/064,848, 2016
132016
High bit rate clock recovery of NRZ data by all-optical processing in a semiconductor optical amplifier and direct optical injection locking of a self-oscillating phototransistor
A Bilenca, D Dahan, J Lasri, G Eisenstein, D Ritter
Photonics Technology Letters, IEEE 14 (3), 399-401, 2002
132002
Stimulated Brillouin scattering based in-band OSNR monitoring technique for 40 Gbps and 100 Gbps optical transparent networks
D Dahan, U Mahlab, D Levy
Optics Express 18 (15), 15769-15783, 2010
112010
The system can't perform the operation now. Try again later.
Articles 1–20