Научно-технический
«ОПТИЧЕСКИЙ ЖУРНАЛ»
издается с 1931 года
 
   
Русский вариант сайта Английский вариант сайта
   
       
   
       
Статьи последнего выпуска

Электронные версии
выпусков начиная с 2008


Алфавитный указатель
2000-2010 гг


444
Архив оглавлений
выпусков 2002-2007 гг


Реквизиты и адреса

Вниманию авторов и рецензентов!
- Порядок публикации
- Порядок рецензирования статей
- Типовой договор
- Правила оформления
- Получение авторского вознаграждения
- Редакционная этика


Контакты

Подписка

Карта сайта




Журнал с 01.12.2015 допущен ВАК для публикации основных результатов диссертаций как издание, входящее в международные реферативные базы систем цитирования (Web Science, Scopus) (см. Vak.ed.gov.ru Перечень журналов МБД 16.03.2018г)

Аннотации (06.2014) : SPECTRAL PHASE CHARACTERIZATION Of ULTRASHORT PULSE USING FRINGE FREE INTERFEROMETRY

SPECTRAL PHASE CHARACTERIZATION Of ULTRASHORT PULSE USING FRINGE FREE INTERFEROMETRY

© 2014 г.    Liang Lei*; Anquan Sun*; Wei Yuan**; Jinyun Zhou*; Bo Wang*; Xiaobo Xing***

*School of Physics and Optoelectronic Engineering, Guangdong University of Technology, Guangzhou, China

**Zhengzhou Railway Vocational and Technical College, Zhengzhou, China

***MOE Key Laboratory of Laser Life Science and Institute of Laser Life Science, South China Normal University, Guangzhou, China

Е­mail: leiliang@gdut.edu.cn

There are presented analytical and experimental results of a novel method which enables significant simplifications in spectral shearing interferometry as applied for ultrashort optical pulse measurements. The method attempts to improve the superiority in conventional Spectral Phase Interferometry for Direct Electric­field Reconstruction (SPIDER). It doesn’t split a test pulse into two parts, but compensate for the delay time between two quasi­monochromatic frequency components in a chirped pulse with spectral and temporal shear to produce an interferogram without fringe. Fringe free interferogram could simplify data processing procedure and reduce the restriction on resolution of spectrometer. The experimental setup avoids the influence of material dispersion with real­time and single­shot nature, and could be made up as a miniaturization measurement device. Although being short of the beauties in SPIDER, it still could be an optional femtosecond pulse measurement method in certain condition.

Keywords: femtosecond pulsе, ultrafast measurements, spectral phase interferometer.

OCIS codes: 120.3180, 120.5050, 320.7100.

Submitted  08.10.2013.

 

ЛИТЕРАТУРА

1.         Kienberger R., Krausz F. Attosecond metrology comes of age // Physica Scripta. 2004. V. 110. P. 32–38.

2.         Hentschel M., Kienberger R., Spielmann C., Reider G.A., Milosevic N., Brabec T., Corkum P., Heinzmann U., Drescher M., Krausz F. Attosecond metrology // Nature. 2001. V. 414. P. 509–513.

3.         Kane D.J., Trebino R. Characterization of arbitrary femtosecond pulses using frequency­resolved optical gating // IEEE J. Quantum Electron. 1993. V. 29. P. 571–579.

4.        Iaconis C., Walmsley I.A. Spectral phase interferometry for direct electric­field reconstruction of ultrashort optical pulses // Opt. Lett. 1998. V. 23. P. 792–794.

5.         Wen J.H., Zhang H., Lu J., Jiao Z.X., Lei L., Lai T.S.  Spectral shearing interferometer with broad applicability // J. Opt. Soc. Am. B. 2011. V. 28. P. 1391–1395.

6.        Baum P., Lochbrunner S., Riedle E. Tunable sub­10­fs ultraviolet pulses generated by achromatic frequency doubling // Opt. Lett. 2004. V. 29. P. 1686–1688.

7.         Kosik E.M., Radunsky A.S., Walmsley I.A., Dorrer C. Interferometric technique for measuring broadband ultrashort pulses at the sampling limit // Opt. Lett. 2005. V. 30. P. 326–328.

8.        Gorza S.P., Wasylczyk P., Walmsley I.A. Spectral shearing interferometry with spatially chirped replicas for measuring ultrashort pulses // Opt. Exp. 2007. V. 15. P. 15168–15174.

9.        Austin D.R., Witting T., Walmsley I.A. Resolution of the relative phase ambiguity in spectral shearing interferometry of ultrashort pulses // Opt. Lett. 2010. V. 35. P. 1971–1973.

10.       Birge J.R., Ell R., Kartner F.X. Two­dimensional spectral shearing interferometry for few­cycle pulse characterization // Opt. Lett. 2006. V. 31. P. 2063–2065.

11.       Gorza S.P., Radunsky A.S., Wasylczyk P., Walmsley I.A. Tailoring the phase­matching function for ultrashort pulse characterization by spectral shearing interferometry // J. Opt. Soc. Am. B. 2007. V. 24. P. 2064–2074.

12.       Radunsky A.S., Walmsley I.A., Gorza S.P., Wasylczyk P. Compact spectral shearing interferometer for ultrashort pulse characterization // Opt. Lett. 2007. V. 32. P. 181–183.

 

 

Полный текст