Development and evaluation of compact acetylene frequency standards

Author

Edwards, C.S. ; Barwood, G.P. ; Patel, P.D. ; Gill, P. ; Benabid, F. ; Wheeler, N.V. ; Tandoi, G. ; Ironside, C.N.

Author_Institution

Nat. Phys. Lab., Teddington, UK

fYear

2012

fDate

1-6 July 2012

Firstpage

610

Lastpage

611

Abstract

This paper describes the development and evaluation of compact and simple acetylene-stabilized diode laser frequency standards in the 1.55 μm spectral region. A variety of spectroscopic configurations have been investigated, using bulk acetylene cells and an acetylene-filled hollow core photonic crystal fiber. Frequency stability and reproducibility data, obtained by heterodyne beat frequency comparison with cavity-enhanced standards, will be presented for sources including a distributed feedback diode laser and a digital supermode distributed Bragg reflector diode laser.

Keywords

holey fibres; organic compounds; photonic crystals; semiconductor lasers; acetylene-filled hollow core photonic crystal fiber; acetylene-stabilized diode laser frequency standards; bulk acetylene cells; cavity-enhanced standards; compact acetylene frequency standards; digital supermode distributed Bragg reflector diode laser; distributed feedback diode laser; frequency stability; heterodyne beat frequency; reproducibility data; spectroscopic configurations; Diode lasers; Distributed feedback devices; Fiber lasers; Laser stability; Measurement by laser beam; Semiconductor lasers; Standards; Diode lasers; fiber optics; frequency measurement; laser stability; optical fiber devices; semiconductor lasers; spectroscopy;

fLanguage

English

Publisher

ieee

Conference_Titel

Precision Electromagnetic Measurements (CPEM), 2012 Conference on

Conference_Location

Washington, DC

ISSN

0589-1485

Print_ISBN

978-1-4673-0439-9

Type

conf

DOI

10.1109/CPEM.2012.6251077

Filename

6251077