Dual-Frequency Laser at 1.5 μm for Optical Distribution and Generation of High-Purity Microwave Signals

被引:122
作者
Pillet, Gregoire [1 ]
Morvan, Loic [1 ]
Brunel, Marc [2 ]
Bretenaker, Fabien [3 ]
Dolfi, Daniel [1 ]
Vallet, Marc [2 ]
Huignard, Jean-Pierre [1 ]
Le Floch, Albert [2 ]
机构
[1] Thales Res & Technol, Dept Phys, F-91767 Palaiseau, France
[2] Univ Rennes 1, CNRS, Inst Phys Rennes, UMR 6251, F-35042 Rennes, France
[3] CNRS, Aime Cotton Lab, UPR 3321, F-91405 Orsay, France
来源
JOURNAL OF LIGHTWAVE TECHNOLOGY | 2008年 / 26卷 / 13-16期
关键词
Delay lock loops; delay lines; frequency-locked loops; microwave oscillators; optical phase-locked loops (OPLL); phase noise; solid-state lasers;
D O I
10.1109/JLT.2008.927209
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
We describe the stabilization of the beatnote of an Er,Yb:glass dual-frequency laser at 1.5 mu m with and without an external microwave reference. In the first case, a classical optical phase-locked loop (OPLL) is used, and absolute phase noise levels as low as -117 dBrad(2)/Hz at 10 kHz from the carrier are reported. In the second case one or two fiber-optic delay lines are used to lock the frequency of the beatnote. Absolute phase noise levels as low as -107 dBrad(2)/Hz at 10 kHz from the carrier are measured, fairly independant of the beatnote frequency varying from 2 to 6 GHz. An analysis of the phase noise level limitation is presented in the linear servo-loop theory framework. The expected phase noise level calculated from the measurement of the different noise sources fits well with the predictions.
引用
收藏
页码:2764 / 2773
页数:10
相关论文
共 30 条
[1]   Offset phase locking of Er: Yb: Glass laser eigenstates for RF photonics applications [J].
Alouini, M ;
Benazet, B ;
Vallet, M ;
Brunel, M ;
Di Bin, P ;
Bretenaker, F ;
Le Floch, A ;
Thony, P .
IEEE PHOTONICS TECHNOLOGY LETTERS, 2001, 13 (04) :367-369
[2]   Dual-polarization frequency-modulated laser source [J].
Baxter, GW ;
Dawes, JM ;
Dekker, P ;
Knowles, DS .
IEEE PHOTONICS TECHNOLOGY LETTERS, 1996, 8 (08) :1015-1017
[3]   Dual-polarization microchip laser at 1.53 μm [J].
Brunel, M ;
Amon, A ;
Vallet, M .
OPTICS LETTERS, 2005, 30 (18) :2418-2420
[4]   Generation of tunable high-purity microwave and terahertz signals by two-frequency solid-state lasers [J].
Brunel, M ;
Lai, ND ;
Vallet, M ;
Le Floch, A ;
Bretenaker, F ;
Morvan, L ;
Dolfi, D ;
Huignard, JP ;
Blanc, S ;
Merlet, T .
MICROWAVE AND TERAHERTZ PHOTONICS, 2004, 5466 :131-139
[5]   Tunable two-frequency lasers for lifetime measurements [J].
Brunel, M ;
Emile, O ;
Bretenaker, F ;
LeFloch, A ;
Ferrand, B ;
Molva, E .
OPTICAL REVIEW, 1997, 4 (05) :550-552
[6]   Tunable optical microwave source using spatially resolved laser eigenstates [J].
Brunel, M ;
Bretenaker, F ;
LeFloch, A .
OPTICS LETTERS, 1997, 22 (06) :384-386
[7]   Highly coherent electronically tunable waveguide extended cavity diode laser [J].
Crozatier, Vincent ;
Das, Bijoy Krishna ;
Baili, Ghaya ;
Gorju, Guillaume ;
Bretenaker, Fabien ;
Le Gouet, Jean-Louis ;
Lorgere, Ivan ;
Sohler, Wolfgang .
IEEE PHOTONICS TECHNOLOGY LETTERS, 2006, 18 (13-16) :1527-1529
[8]  
GILLE JC, 1967, THEORIE CALCUL ASSER
[9]   A WIDE-BAND HETERODYNE OPTICAL PHASE-LOCKED LOOP FOR GENERATION OF 3-18 GHZ MICROWAVE CARRIERS [J].
GLIESE, U ;
NIELSEN, TN ;
BRUUN, M ;
CHRISTENSEN, EL ;
STUBKJAER, KE ;
LINDGREN, S ;
BROBERG, B .
IEEE PHOTONICS TECHNOLOGY LETTERS, 1992, 4 (08) :936-938
[10]   LASER LINEWIDTH REQUIREMENTS AND IMPROVEMENTS FOR COHERENT OPTICAL BEAM FORMING NETWORKS IN SATELLITES [J].
GLIESE, U ;
CHRISTENSEN, EL ;
STUBKJAER, KE .
JOURNAL OF LIGHTWAVE TECHNOLOGY, 1991, 9 (06) :779-790
123