TY - JOUR
AU - Tara Fortier
AU - Jun Ye
AU - Steven Cundiff
AU - R. Windeler
AB - We present measurements of the nonlinear phase noise that is due to amplitude-to-phase conversion in air–silica microstructure fiber that is utilized to broaden the frequency comb from a mode-locked femtosecond
laser to an optical octave. When the octave of the continuum is employed to phase stabilize the laser-pulse train, this phase noise causes a change in the carrier-envelope phase of 3784-rad/nJ change in pulse energy. As a result, the jitter on the carrier-envelope phase that is due to fiber noise, from 0.03 Hz–55 kHz, is 0.5 rad.
BT - Optics Letters
DA - 2002-03
DO - 10.1364/OL.27.000445
N2 - We present measurements of the nonlinear phase noise that is due to amplitude-to-phase conversion in air–silica microstructure fiber that is utilized to broaden the frequency comb from a mode-locked femtosecond
laser to an optical octave. When the octave of the continuum is employed to phase stabilize the laser-pulse train, this phase noise causes a change in the carrier-envelope phase of 3784-rad/nJ change in pulse energy. As a result, the jitter on the carrier-envelope phase that is due to fiber noise, from 0.03 Hz–55 kHz, is 0.5 rad.
PY - 2002
EP - 445
T2 - Optics Letters
TI - Nonlinear phase noise generated in air-silica microstructure fiber and its effect on carrier-envelope phase
VL - 27
SN - 0146-9592
ER -