Effect of Double-pass and Single-pass Architecture in Brillouin-Raman Fiber laser

被引:0
作者
Mamdoohi, G. [1 ,2 ]
Mahdi, M. A. [1 ,2 ]
Abas, A. F. [1 ,2 ]
Mokhtar, M. [1 ,2 ]
Kheradmand, B.
机构
[1] Univ Putra Malaysia, Wireless & Photon Network Res Ctr, Engn & Technol Complex, Serdang 43400, Selangor, Malaysia
[2] Univ Putra Malaysia, Fac Engn, Dept Comp & Commun Syst Engn, Photon Lab, Serdang 43400, Selangor, Malaysia
来源
3RD INTERNATIONAL CONFERENCE ON PHOTONICS 2012 (ICP 2012) | 2012年
关键词
RAYLEIGH-SCATTERING; COMB; CONFIGURATION; AMPLIFIER; LINES;
D O I
暂无
中图分类号
O43 [光学];
学科分类号
070207 ; 0803 ;
摘要
We experimentally investigate effect of double pass and single pass configuration in multi-wavelength Brillouin-Raman fiber laser in a linear cavity. Up to 110 flat amplitude multi-wavelengths Brillouin Stokes with spacing of 0.16 nm within wavelength range of 1554 to 1570 nm in single pass configuration are generated. The generated wavelengths with OSNR 25 dB compared with that of double pass architecture. Single space configuration has a superior performance due to double line spacing, higher OSNR, wider bandwidth and high stability than that of double pass configuration. Lasing lines in double pass has 0.08 nm space due to the increment of Rayleigh scattering in double pass configuration.
引用
收藏
页码:192 / 194
页数:3
相关论文
共 16 条
[1]   Multiwavelength Raman-fiber-laser-based long-distance remote sensor for simultaneous measurement of strain and temperature [J].
Han, YG ;
Tran, TVA ;
Kim, SH ;
Lee, SB .
OPTICS LETTERS, 2005, 30 (11) :1282-1284
[2]   A new configuration of multi-wavelength Brillouin fiber laser [J].
Harun, S. W. ;
Shirazi, M. R. ;
Ahmad, H. .
LASER PHYSICS LETTERS, 2008, 5 (01) :48-50
[3]   Raman amplifiers for telecommunications [J].
Islam, MN .
IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS, 2002, 8 (03) :548-559
[4]   Wavelength tunable and amplitude-equilibrium dual-wavelength lasing sources with dual-pass Raman/Brillouin amplification configuration [J].
Liu, Yan-Ge ;
Wang, Dongning .
OPTICS EXPRESS, 2008, 16 (06) :3583-3588
[5]   Flat amplitude equal spacing 798-channel Rayleigh-assisted Brillouin/Raman multiwavelength comb generation in dispersion compensating fiber [J].
Min, B ;
Kim, P ;
Park, N .
IEEE PHOTONICS TECHNOLOGY LETTERS, 2001, 13 (12) :1352-1354
[6]   Dynamics of cascaded Brillouin-Rayleigh scattering in a distributed fiber Raman amplifier [J].
Park, KD ;
Min, B ;
Kim, P ;
Park, N ;
Lee, JH ;
Chang, JS .
OPTICS LETTERS, 2002, 27 (03) :155-157
[7]   Multi-wavelength Brillouin fiber laser using dual-cavity configuration [J].
Parvizi, R. ;
Ali, N. M. ;
Harun, S. W. ;
Moghavvemi, M. ;
Arof, H. ;
Ahmad, H. .
LASER PHYSICS, 2011, 21 (01) :205-209
[8]   Multi-wavelength Brillouin fiber laser using Brillouin-Rayleigh scatterings in distributed Raman amplifier [J].
Shahi, S. ;
Harun, S. W. ;
Ahmad, H. .
LASER PHYSICS LETTERS, 2009, 6 (10) :737-739
[9]   Multi-wavelength Brillouin fiber laser using a holey fiber and a bismuth-oxide based erbium-doped fiber [J].
Shahi, S. ;
Harun, S. W. ;
Ahmad, H. .
LASER PHYSICS LETTERS, 2009, 6 (06) :454-457
[10]   Improvement of comb lines quality employing double-pass architecture in Brillouin-Raman laser [J].
Shargh, R. Sonee ;
Al-Mansoori, M. H. ;
Anas, S. B. A. ;
Sahbudin, R. K. Z. ;
Zamzuri, A. K. ;
Mahdi, M. A. .
LASER PHYSICS LETTERS, 2011, 8 (11) :823-827
12