Title :
High resolution spectroscopy using fiber laser frequency combs
Author :
Coddington, I. ; Swann, W.C. ; Newbury, N.R.
Author_Institution :
Optoelectron. Div., NIST, Boulder, CO
Abstract :
The output of a femtosecond fiber laser can be both spectrally broadened and stabilized, thereby providing a broadband coherent source in the near infrared. In the frequency domain, the result is a frequency comb with frequency stabilities at the millihertz level (relative to the reference), while in the time domain, the result is an optical pulse train with sub-femtosecond relative timing jitter. This coherent source can be used for high-resolution measurements in a range of areas including frequency metrology, ranging, vibrometry, and spectroscopy. We will discuss the performance of these sources, focusing on recent work applying them to high-resolution spectroscopy. This contribution of NIST, an agency of the US government, is not subject to copyright.
Keywords :
fibre lasers; frequency stability; high-speed optical techniques; laser stability; measurement by laser beam; spectral line broadening; spectroscopic light sources; timing jitter; NIST; femtosecond fiber laser; fiber laser frequency comb; frequency stability; high resolution spectroscopy; high-resolution measurement; optical pulse train; spectral broadening; stabilized laser; timing jitter; Area measurement; Fiber lasers; Frequency domain analysis; Frequency measurement; Infrared spectra; Laser stability; Optical pulses; Spectroscopy; Timing jitter; Ultrafast optics;
Conference_Titel :
Precision Electromagnetic Measurements Digest, 2008. CPEM 2008. Conference on
Conference_Location :
Broomfield, CO
Print_ISBN :
978-1-4244-2399-6
Electronic_ISBN :
978-1-4244-2400-9
DOI :
10.1109/CPEM.2008.4574648
