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Items: 1 to 20 of 225

1.

Generation of first hard X-ray pulse at Tsinghua Thomson Scattering X-ray Source.

Du Y, Yan L, Hua J, Du Q, Zhang Z, Li R, Qian H, Huang W, Chen H, Tang C.

Rev Sci Instrum. 2013 May;84(5):053301. doi: 10.1063/1.4803671.

PMID:
23742539
2.

A pulse-to-pulse timing jitter measurement between two synchronized amplified laser beams for TTX.

Wang D, Yan L, Nie Z, Tian Q, Yang J, Hua J, Du Y, Huang W.

Rev Sci Instrum. 2017 Jun;88(6):063307. doi: 10.1063/1.4984946.

PMID:
28667955
3.

Generation of bright attosecond x-ray pulse trains via Thomson scattering from laser-plasma accelerators.

Luo W, Yu TP, Chen M, Song YM, Zhu ZC, Ma YY, Zhuo HB.

Opt Express. 2014 Dec 29;22(26):32098-106. doi: 10.1364/OE.22.032098. Erratum in: Opt Express. 2015 Mar 23;23(6):7732-3.

PMID:
25607175
4.

Sub-MeV tunably polarized X-ray production with laser Thomson backscattering.

Kawase K, Kando M, Hayakawa T, Daito I, Kondo S, Homma T, Kameshima T, Kotaki H, Chen LM, Fukuda Y, Faenov A, Shizuma T, Fujiwara M, Bulanov SV, Kimura T, Tajima T.

Rev Sci Instrum. 2008 May;79(5):053302. doi: 10.1063/1.2931010.

PMID:
18513062
5.

Diffraction based method to reconstruct the spectrum of the Thomson scattering x-ray source.

Chi Z, Yan L, Zhang Z, Zhou Z, Zheng L, Wang D, Tian Q, Wang W, Nie Z, Zhang J, Du Y, Hua J, Shi J, Pai C, Lu W, Huang W, Chen H, Tang C.

Rev Sci Instrum. 2017 Apr;88(4):045110. doi: 10.1063/1.4981131.

PMID:
28456250
6.

Photon beams for radiosurgery produced by laser Compton backscattering from relativistic electrons.

Girolami B, Larsson B, Preger M, Schaerf C, Stepanek J.

Phys Med Biol. 1996 Sep;41(9):1581-96.

PMID:
8884899
7.

Tunable all-optical quasimonochromatic thomson x-ray source in the nonlinear regime.

Khrennikov K, Wenz J, Buck A, Xu J, Heigoldt M, Veisz L, Karsch S.

Phys Rev Lett. 2015 May 15;114(19):195003. Epub 2015 May 14.

PMID:
26024176
8.

Relativistic nonlinear Thomson scattering as attosecond x-ray source.

Lee K, Cha YH, Shin MS, Kim BH, Kim D.

Phys Rev E Stat Nonlin Soft Matter Phys. 2003 Feb;67(2 Pt 2):026502. Epub 2003 Feb 13.

PMID:
12636833
9.

In-line phase-contrast imaging based on Tsinghua Thomson scattering x-ray source.

Zhang Z, Du Y, Yan L, Hua J, Yang J, Xiao Y, Huang W, Chen H, Tang C.

Rev Sci Instrum. 2014 Aug;85(8):083307. doi: 10.1063/1.4893658.

PMID:
25173262
10.

A laser-Compton scattering prototype experiment at 100 MeV linac of Shanghai Institute of Applied Physics.

Luo W, Xu W, Pan QY, Cai XZ, Chen JG, Chen YZ, Fan GT, Fan GW, Guo W, Li YJ, Liu WH, Lin GQ, Ma YG, Shen WQ, Shi XC, Xu BJ, Xu JQ, Xu Y, Zhang HO, Yan Z, Yang LF, Zhao MH.

Rev Sci Instrum. 2010 Jan;81(1):013304. doi: 10.1063/1.3282445.

PMID:
20113090
11.

High resolution energy-angle correlation measurement of hard x rays from laser-Thomson backscattering.

Jochmann A, Irman A, Bussmann M, Couperus JP, Cowan TE, Debus AD, Kuntzsch M, Ledingham KW, Lehnert U, Sauerbrey R, Schlenvoigt HP, Seipt D, Stöhlker T, Thorn DB, Trotsenko S, Wagner A, Schramm U.

Phys Rev Lett. 2013 Sep 13;111(11):114803. Epub 2013 Sep 13.

PMID:
24074095
12.

Attosecond and zeptosecond x-ray pulses via nonlinear Thomson backscattering.

Lan P, Lu P, Cao W, Wang X.

Phys Rev E Stat Nonlin Soft Matter Phys. 2005 Dec;72(6 Pt 2):066501. Epub 2005 Dec 14.

PMID:
16486069
13.

Compact 50-Hz terawatt Ti:sapphire laser for x-ray and nonlinear optical spectroscopy.

Cheng G, Shan F, Freyer A, Guo T.

Appl Opt. 2002 Aug 20;41(24):5148-54.

PMID:
12206226
14.

The use and characterization of a backilluminated charge-coupled device in investigations of pulsed x-ray and radiation sources.

Fullagar W, Uhlig J, Walczak M, Canton S, Sundström V.

Rev Sci Instrum. 2008 Oct;79(10):103302. doi: 10.1063/1.3000003.

PMID:
19044707
15.

Generation of isolated single attosecond hard X-ray pulse in enhanced self-amplified spontaneous emission scheme.

Kumar S, Kang HS, Kim DE.

Opt Express. 2011 Apr 11;19(8):7537-45. doi: 10.1364/OE.19.007537.

PMID:
21503061
16.

Observation of the second harmonic in Thomson scattering from relativistic electrons.

Babzien M, Ben-Zvi I, Kusche K, Pavlishin IV, Pogorelsky IV, Siddons DP, Yakimenko V, Cline D, Zhou F, Hirose T, Kamiya Y, Kumita T, Omori T, Urakawa J, Yokoya K.

Phys Rev Lett. 2006 Feb 10;96(5):054802. Epub 2006 Feb 8.

PMID:
16486939
17.

A photodiode amplifier system for pulse-by-pulse intensity measurement of an x-ray free electron laser.

Kudo T, Tono K, Yabashi M, Togashi T, Sato T, Inubushi Y, Omodani M, Kirihara Y, Matsushita T, Kobayashi K, Yamaga M, Uchiyama S, Hatsui T.

Rev Sci Instrum. 2012 Apr;83(4):043108. doi: 10.1063/1.3701713.

PMID:
22559516
18.

Ultrahigh Brilliance Multi-MeV γ-Ray Beams from Nonlinear Relativistic Thomson Scattering.

Sarri G, Corvan DJ, Schumaker W, Cole JM, Di Piazza A, Ahmed H, Harvey C, Keitel CH, Krushelnick K, Mangles SP, Najmudin Z, Symes D, Thomas AG, Yeung M, Zhao Z, Zepf M.

Phys Rev Lett. 2014 Nov 28;113(22):224801. Epub 2014 Nov 25.

19.

Interaction of short x-ray pulses with low-Z x-ray optics materials at the LCLS free-electron laser.

Hau-Riege SP, London RA, Graf A, Baker SL, Soufli R, Sobierajski R, Burian T, Chalupsky J, Juha L, Gaudin J, Krzywinski J, Moeller S, Messerschmidt M, Bozek J, Bostedt C.

Opt Express. 2010 Nov 8;18(23):23933-8. doi: 10.1364/OE.18.023933.

PMID:
21164739
20.

Hard X-ray emission from high intensity short laser pulse produced Al, Mo and Ta plasmas.

Ikhlef A, Jiang Z, Kieffer JC, Krol A.

J Xray Sci Technol. 1998 Jan 1;8(3):151-7.

PMID:
22388506

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