Publications
122. Steve Gilbertson, Ximao Feng, Sabih Khan,
Michael Chini, He Wang, Hiroki Mashiko, and Zenghu Chang, “Direct measurement of an electric field in
femtosecond Bessel-Gaussian beams,” Optics Letters34, 2390 (2009).
121. He Wang, Michael Chini, Yi Wu, Eric Moon,
Hiroki Mashiko and Zenghu Chang, “Carrier-envelope phase stabilization of 5 fs, 0.5 mJ, pulses from adaptive
phase modulators,” Applied Physics B, DOI 10.1007/s00340-009-3639-0 (2009).
120. He Wang, Eric Moon, Michael Chini,
Hiroki Mashiko, Chengquan Li, and Zenghu Chang, “Coupling between energy and
carrier-envelope phase in hollow-core fiber based f-to-2f interferometers,” Optics Express 17, pp. 12082–12089 (2009).
119. Eric Moon, He Wang,
Steve Gilbertson, Hiroki Mashiko and Zenghu Chang, “Carrier-Envelope Phase
Stabilization of Grating-Based Chirped-Pulse Lasers,” Laser and Photonics
Reviews, DOI
10.1002/lpor.200810060 (2009).
118. He Wang, Michael
Chini, Sabih D. Khan, Shouyuan Chen, Steve Gilbertson, Ximao Feng, Hiroki
Mashiko and Zenghu Chang, “Practical
issues of retrieving isolated attosecond pulses,” J.
Phys. B: At. Mol. Opt. Phys. 42, 134007 (2009).
117.
Shuting Lei, Sasikumar Devarajan, and Zenghu
Chang “A comparative study on the machining
performance of textured cutting tools with lubrication,” Int.
J. Mechatronics and Manufacturing Systems 2, 401 (2009).
116. Michael Chini, He Wang, Sabih D. Khan, Shouyuan
Chen, and Zenghu Chang, “Retrieval of Satellite Pulses of Single
Isolated Attosecond Pulses,” Appl. Phys. Lett. 94,
161112 (2009).
115. Y. Wang, M. Berrill, F. Pedaci, M.M. Shakya, S. Gilbertson, Zenghu Chang, E. Granados,
B. M. Luther, M. A. Larotonda, J.J.
Rocca, “Measurement of 1 Picosecond Soft X-Ray Laser
Pulses from an Injection-Seeded Plasma Amplifier,” Phys. Rev. A 79, 023810, (2009).
114. Chengquan Li, Eric Moon,
Hiroki Mashiko, He Wang, Christopher M. Nakamura, Jason Tackett, and Zenghu
Chang, “Mechanism of Phase-Energy Coupling in f-to-2f Interferometry,” Applied Optics 48,
1303-1307 (2009).
113. I. Ben-Itzhak, P. Q. Wang, A. M. Sayler, K. D. Carnes, M. Leonard, B. D. Esry, A. S. Alnaser, B. Ulrich, X. M.Tong, I. V. Litvinyuk, C. M. Maharjan,
P. Ranitovic, T. Osipov, S. Ghimire, Z. Chang, and C. L. Cocke, “Elusive enhanced ionization structure for H2+
in intense ultrashort laser pulses,” Phys. Rev. A Phys. Rev. A 78, 063419 (2008).
112.
(Invited) P. B. Corkum and Zenghu Chang, “The Attosecond
Revolution,” Optics and Photonics News 19, 24 (2008).
111. He Wang, Yi Wu, Chengquan
Li, Hiroki Mashiko, Steve Gilbertson, and Zenghu Chang, “Generation of 0.5 mJ,
few-cycle laser pulsesby an adaptive phase
modulator,” Optics Express 16, 14448-14455 (2008).
110. Steve Gilbertson, Hiroki Mashiko, Chengquan Li, Eric Moon, and Zenghu Chang, “Effects of laser pulse duration on extreme
ultraviolet spectra from double optical gating,” Appl. Phys. Lett. 93, 111105 (2008).
109. Shuting Lei, Sasikumar Devarajan, and Zenghu
Chang, “A Study of Micropool Lubricated Cutting Tool
in Machining of Mild Steel,” Journal of Materials Processing Technology, in
press, available online 22 April 2008.
108. Hiroki Mashiko, Steve Gilbertson,
Chengquan Li, Eric Moon, and Zenghu Chang, “Optimizing the photon flux of
double optical gated high-order harmonic spectra,” Phys. Rev. A 77,
063423 (2008).
107. Chengquan Li, Hiroki Mashiko, He Wang, Eric Moon, Steve
Gilbertson, and Zenghu Chang, “Carrier-envelope phase
stabilization by controlling compressor
grating separation,” Appl. Phys. Lett.
92, 191114 (2008).
106. J. McKenna, A. M. Sayler, F. Anis, B. Gaire, Nora G. Johnson, E.
Parke, J. J. Hua, H. Mashiko, C. M. Nakamura, E. Moon, Z. Chang, K. D. Carnes, B. D. Esry,
and I. Ben-Itzhak, “Enhancing High-Order Above-Threshold
Dissociation of H2+ Beams with Few-Cycle Laser Pulses,” Phys. Rev. Lett. 100, 133001 (2008).
105. Hiroki Mashiko, Steve
Gilbertson, Chengquan Li, Sabih D. Khan,
Mahendra M. Shakya, Eric Moon, and Zenghu Chang, “Double optical gating of high-order harmonic
generation with carrier-envelope phase stabilized lasers,” Phys Rev. Lett. 100, 103906 (2008).
104. Steve Gilbertson,
Hiroki Mashiko, Chengquan Li, Sabih D. Khan,
Mahendra M. Shakya, Eric Moon, and Zenghu Chang, “A
low-loss, robust setup for double optical gating of high harmonic generation,” Appl.
Phys. Lett. 92, 071109
(2008).
103. Mahendra Man Shakya, S. Gilbertson, Hiroki Mashiko, C.
Nakamura, C. Li, E. Moon, Z. Duan, Jason Tackett, Zenghu Chang, "Carrier envelope phase effects on
polarization gated attosecond spectra," Proc. SPIE Int. Soc. Opt. Eng. 6703,
67030 (2007).
102. Shambhu Ghimire, Ximao Feng, and Zenghu Chang,
"Measurement of attosecond XUV pulses generated with polarization gating
by two-dimensional photoelectron spectroscopy," Proc. SPIE Int. Soc. Opt.
Eng. 6703, 67030 (2007).
101. Zenghu Chang, “Controlling attosecond pulse generation with a double optical gating,” Phys. Rev. A 76,
051403(R) (2007).
100. He Wang,
Chengquan Li,
Jason Tackett,
Hiroki Mashiko,
Christopher M.
Nakamura, Eric Moon
and Zenghu Chang,
“Power locking of
high-repetition-rate chirped pulse amplifiers,” Applied Physics B 89, 275–279 (2007).
99. K.D. Carnes, C.L. Cocke, Z. Chang, I. Ben-Itzhak, H.V.
Needham, A. Rankin, “Picosecond ion pulses from an EN tandem created by a
femtosecond Ti:sapphire laser,” Nuclear Instruments
and Methods in Physics Research Section B: Beam Interactions with Materials and
Atoms 261, Issues 1-2, 106-109 (2007).
98. Hiroki Mashiko,
Christopher M. Nakamura, Chengquan Li, Eric Moon, He Wang, Jason Tackett, and Zenghu Chang, “Carrier-envelope phase stabilized 5.6 fs, 1.2 mJ pulses,” Applied Physics
Letters 90, 161114 (2007).
97. M. Zamkov, A. S. Alnaser,
B. Shan, Z. Chang, and P. Richard, “Exciton in
bundles of single walled carbon nanotubes,” Chemical Physics Letters 437, (1-3): 104-107 (2007).
96. Chengquan
Li, Eric Moon, He Wang, Hiroki Mashiko, Christopher M. Nakamura, Jason Tackett, and Zenghu Chang, “Determining the Phase-Energy Coupling Coefficient in Carrier-envelope Phase Measurements,” Optics Letters 32, 796 (2007).
95. Chengquan Li E. Moon, Hiroki
Mashiko, C. Nakamura, P. Ranitovic, C. L. Cocke, and Zenghu Chang, G. G. Paulus, “Precision control of carrier-envelope phase
in grating based chirped pulse amplifiers,” Optics Express 14, 11468-11476 (2006).
94. E. Moon, Chengquan Li, Zuoliang Duan, J. Tackett, K. L. Corwin, B. R. Washburn, and Zenghu
Chang, “Reduction of fast carrier-envelope phase jitter in femtosecond laser amplifiers,” Optics Express 14(21), pp. 9758-9763 (2006).
93. Chengquan Li, Eric Moon, and Zenghu Chang, “Carrier-envelope phase shift
caused by variation of grating separation,” Optics Letters 31, pp. 3113-3115 (2006).
92. Zenghu Chang, “Carrier envelope phase shift caused by grating-based stretchers and
compressors,” Applied Optics 45,
8350(2006).
91. M. A. Larotonda,
Y. Wang, M. Berrill, B. M. Luther and J. J. Rocca,
Mahendra Man Shakya, S. Gilbertson and Zenghu Chang, "Pulse
duration measurements of grazing incidence pumped
table-top Ni-like Ag and Cd transient soft x-ray
lasers," Optics Letters 31, 3043-3045 (2006).
90. M. Zamkov,
A. S. Alnaser, N. Woody, B. Shan, Z. Chang, and P.
Richard , “Probing the intrinsic conductivity of multiwalled
carbon nanotubes,” Applied Physics
Letters 89, 093111 (2006).
89. A. S. Alnaser,
B. Ulrich, X. M. Tong, I. V. Litvinyuk, C. M. Maharjan,
P. Ranitovic, T. Osipov, R. Ali, S. Ghimire, Z.
Chang, C. D. Lin, and C. L. Cocke, “Simultaneous real-time tracking
of wave packets evolving on two different potential curves in H2+
and D2+,” PHYSICAL REVIEW A 72,
030702(R)(2005).
88. Z. X. Zhao, Zenghu Chang, X. M.
Tong, and C. D. Lin, “Measuring attosecond pulses generated from polarization
gating," Proc. SPIE Int. Soc. Opt. Eng. 5920,
592007 (2005).
87. C. M. Maharjan,
A. S. Alnaser, X. M. Tong, B. Ulrich, P. Ranitovic,
S. Ghimire, Z. Chang, I. V. Litvinyuk, and C. L. Cocke, “Momentum imaging of doubly charged ions of Ne
and Ar in the sequential ionization region,” Phys. Rev. A 72, 041403(R) (2005).
86. Jinyuan Liu, Eric Landahl , Jing Wang, and
Zenghu Chang, “Single-pulse measurement of synchrotron radiation using
an ultrafast x-ray streak camera,” Proc. SPIE Int. Soc. Opt. Eng. 5920,
592007 (2005).
85. Mahendra Man
Shakya and Zenghu Chang,
“Achieving 280 fs resolution with a streak camera by reducing the
deflection dispersion,” Appl. Phys. Lett.
87, 041103 (2005).
84. S. Ghimire, B. Shan,
C. Wang, and Z. Chang, “High-Energy
6.2-fs Pulses for Attosecond Pulse Generation,” Laser Physics, 15, No. 6,
838-842(2005).
83. Z. X.
Zhao, Zenghu Chang, X. M. Tong, and C. D. Lin, “Circularly-polarized laser-assisted photoionization spectra
of argon for attosecond pulse measurements,” Optics express, 13, 1966
(2005).
82. A. S. Alnaser, C. M. Maharjan, X. M. Tong,
B. Ulrich,
P. Ranitovic,
B. Shan,
Z. Chang,
C.D. Lin,
C. L. Cocke,
and I. V. Litvinyuk,
“Effects of orbital symmetries in
dissociative ionization of molecules by few-cycle laser pulses,”
Phys. Rev. A 71, 031403(R) (2005).
81. Zenghu Chang, “Chirp
of the attosecond pulses generated by a polarization gating,” Phys.
Rev. A 71, 023813 (2005).
80. S.
L. Johnson, P. A. Heimann, A. G. MacPhee,
A. M. Lindenberg, O. R. Monteiro,
Z. Chang, R. W. Lee, and R. W. Falcone, “Bonding in
liquid carbon studied by time-resolved x-ray absorption spectroscopy,” Phys. Rev. Lett. 94, 057407 (2005).
79. M. Zamkov, N. Woody, B. Shan, Z.
Chang, P. Richard, “Lifetime of charge carriers in multiwalled
nanotubes,” Phys. Rev. Lett.,
94, 056803 (2005).
78. Bing
Shan, Shambhu Ghimire, and Zenghu Chang, “Generation
of attosoecond XUV supercontinuum by polarization gating,” Journal of
Modern Optics 52, 277 (2005).
77. Zenghu Chang, “Single
attosecond pulse and xuv supercontinuum
in the high-order harmonic plateau,” Phys. Rev. A 70, 043802 (2004).
76. S. Voss, A. S. Alnaser, X. M. Tong,
C. Maharjan, P. Ranitovic, B. Ulrich, B. Shan, Z.
Chang, C. D. Lin, and C. L. Cocke, “High resolution kinetic energy release
spectra and angular distribution from double ionization of nitrogen and oxygen
by short laser pulses,” J. Phys. B: At. Mol. Opt. Phys. 37, 4239 (2004).
75. K. Kulkarni, Z. Chang, and S. Lei, 2004,
“Surface Micro/Nanostructuring of Cutting Tool
Materials by Femtosecond Laser Micromachining,” Transactions of the North
American Manufacturing Research Institution of SME 32, 25 (2004).
74. Richard
Bredy, Howard A. Camp,
and Hai Nguyen, Takaaki Awata, Bing Shan, Zenghu Chang, and B. D. DePaola, “Three-dimensional
spatial imaging in multiphoton ionization rate
measurements,” J. Opt. Soc. Am. B 21,
2221 (2004).
73. M. M. Shakya, Z. Chang, "An accumulative x-ray streak camera
with 280-fs resolution," Proceedings of SPIE, Vol. 5534, pp125-131
(2004).
72. A. S. Alnaser, X.-M. Tong, T.Osipov, S. Voss, C.M. Maharjan, P. Ranitovic, B. Ulrich, B. Shan, Z. Chang, C. D. Lin, and C. L. Cocke, “Routes to control of H2 Coulomb explosion in few-cycle laser pulses,” Phys. Rev. Lett. 93, 183202 (2004).
71. A. S. Alnaser, X. M. Tong, T. Osipov, S. Voss, C. M. Maharjan, B. Shan, Z. Chang, and C. L. Cocke, “Laser-peak-intensity calibration
using recoil-ion momentum imaging,” Phys. Rev. A 70, 023413
(2004).
70. M. Zamkov, N. Woody, S. Bing, H.S. Chakraborty,
Z. Chang, U. Thumm, and P. Richard,
“Time-resolved photoimaging of image-potential
states in carbon nanotubes,” Phys. Rev. Lett.,
93, 156803 (2004).
69. A.S. Alnaser, S. Voss, X.-M. Tong, C.M. Maharjan, P. Ranitovic, B.
Ulrich, T.Osipov, B. Shan, Z. Chang and C. L. Cocke, “Effects of molecular structure on ion disintegration patterns
in ionization of O2 and N2 by short laser pulses,” Phys. Rev. Lett. 93, 113003 (2004).
67. E. P. Benis, J. F. Xia, X. M. Tong, M. Faheem,
M. Zamkov, B. Shan, P. Richard, and Z. Chang, “Ionization suppression of Cl2
molecules in intense laser fields,” Phys. Rev. A 70, 025401 (2004).
66. Bing Shan, Shambhu Ghimire, and Zenghu
Chang, “The effect of orbital symmetry on high-order harmonic generation from
molecules,” Phys. Rev. A. 69, 021404(R) (2004).
65. M. F. DeCamp, D. A. Reis, A.
Cavalieri, P. H. Bucksbaum, R. Clarke, R. Merlin,
E.M. Dufresne, and D. A. Arms, A. Lindenberg
and A. Macphee, Z. Chang, J. S. Wark
and B. Lings, "Transient
Strain Driven by a Dense Electron-Hole Plasma," Phys. Rev. Lett. 91, 165502 (2003).
64. S. L. Johnson, P. A. Heimann, A. M. Lindenberg, H. O. Jeschke, M. E. Garcia,
Z. Chang, R.W. Lee, J. J. Rehr, and R. W. Falcone, “Properties of liquid silicon observed by time-resolved x-ray
absorption spectroscopy,” Phys. Rev. Lett. 91,
157403 (2003).
63. Jinyuan
Liu, Jin Wang, Bing Shan, Chun Wang,
Zenghu Chang, “An accumulative x-ray streak camera with sub-600 fs temporal
resolution and 50 fs timing jitter,” Applied Physics Letters 82, 3553-3555
(2003).
62. J. Liu, A. G. MacPhee, C. Liu, B. Shan, Z. Chang and J. Wang, "New
approach to jitter reduction of an x-ray streak camera in accumulation
mode," Proceedings of SPIE, Vol. 4796, pp184-188 (2003).
61. Bing
Shan, Xiao-Min Tong , Zengxiu Zhao, Zenghu Chang and C. D. Lin,
“High harmonic cutoff extension
of O2 molecule due to ionization suppression,” Phys. Rev. A 66, 061401(R) (2002).
60. Mourou,-G.; Chang,-Z.; Maksimchuk,-A.; Nees,-J.; Bulanov,-S.-V.;
Naumova,-N.-M.;
Bychenkov,-V.-Yu.;
Esirkepov,-T.-Zh.; Pegoraro,-F.; Ruhl,-H.,
“Nonlinear relativistic optics in the single cycle, single wavelength regime
and kilohertz repetition rate,”
AIP-Conference-Proceedings.
(611): 138-44 (2002).
59. B. Shan, A. Cavalieri, Z. Chang, “Tunable high
harmonic generation with an optical parametric amplifier,” Appl.
Phys. B 74, s23-s26 (2002).
58. B. Shan, Z. Chang, “Dramatic extension of the high-order
harmonic cutoff by using a long-wavelength pump,” Phys. Rev. A 65, 011804(R) (2002).
57. A. M. Lindenberg, I. Kang, S. L.
Johnson, R. W. Falcone, P. A. Heimann,
Z. Chang, R. W. Lee, J. S. Wark, “Coherent control of phonons
probed by time-resolved x-ray diffraction,” Optics Letters 27, 869 (2002).
56. G. Mourou G, Z. Chang , A. Maksimchuk, J. Nees, S. V. Bulanov,
V. Y. Bychenkov, T. Z. Esirkepov,
N. M. Naumova, F. Pegoraro,
H. Ruhl, “On the design of experiments for the study
of relativistic nonlinear optics in the limit of single-cycle pulse duration
and single-wavelength spot size,” PLASMA PHYSICS REPORTS 28 (1): 12-27 (2002).
55. Heimann PA, Lindenberg
AM, Kang I, Johnson S, Missalla T, Chang Z, Falcone RW, Schoenlein RW, Glover
TE, Padmore HA, “Ultrafast X-ray diffraction of
laser-irradiated crystals,” NUCLEAR INSTRUMENTS & METHODS IN PHYSICS
RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND
ASSOCIATED EQUIPMENT , Vol. 467, Part 2, 986-989 (2001).
54.
Wark-JS; Allen-AM; Ansbro-PC; Bucksbaum-PH; Chang-Z; DeCamp-M; Falcone-RW;Heimann-PA; Johnson-SL; Kang-I; Kapteyn-HC; Larsson-J; Lee-RW; Lindenberg-AM;
Merlin-R; Missalla-T; Naylor-G; Padmore-HA;
Reis-DA; Scheidt-K; Sjoegren-A;
Sondhauss-PC; Wulff-M,
“Femtosecond X-ray diffraction: experiments and limits”,
Proceedings-of-the-SPIE--The-International-Society-for-Optical-Engineering. Vol.4143; p.26-37 (2001).
53. W. Peng, Z. Chang, G. Mourou,
“Femtosecond electron diffraction,” Vol.30, no.7, 810-12 (2001), in
Chinese.
52. O. Albert, H. Wang, D. Liu, Z. Chang and G. Mourou, “Generation of relativistic intensity pulses at a
kilohertz repetition rate,” Optics Letters 25,
1125 (2000).
51. A. M. Lindenberg.
I. Kung, S. L. Johnson, T. Missalla, P. A. Heimann, Z. Chang, J. Larsson, P. H. Bucksbaum,
H. C. Kapteyn, H. A. Padmore,
R. W. Lee, J. S. Wark, and R. W. Falcone,
“Time-Resolved X-ray Diffraction from Coherent Phonons during a Laser- Induced
Phase Transition,” Physical Review
Letters 84, No. 1, 111-114 (2000).
50. H. Wang, S. Backus, Z. Chang, R. Wagner, K.
Kim, X. Wang, D. Umstadter, T. Lei, M. Murnane, and H. Kapteyn,
“Generation of 10-W average-power, 40-TW peak-power, 24-fs pulses from a Ti:sapphire amplifier system,” Journal of the Optical
Society of America B: Optical Physics 16,
Issue 10, pp. 1790-1794 (1999).
49. CG. Durfee, A. Rundquist, S. Backus, Z. Chang, C. Herne, HC Kapteyn, and MM. Murnane,
“Guided-wave Phase-matching of Ultrashort Pulse
Light,” Journal of Nonlinear Optical Physics and Material 8, No. 2, 211-234 (1999).
48. Andy Rundquist,
Charles G. Durfee III, Zenghu Chang, Catherine Herne,
Sterling Backus, Margaret M. Murnane, and Henry C. Kapteyn, “Phase-Matched Generation of Coherent Soft
X-rays,” Science 280, 1412-1415
(1998).
47. Shan
B, Chang ZH, Liu JY, Liu XQ, Gao SS, Ren YL, Zhu WH, “A gated microchannel plate soft X-ray
imaging system for a laser plasma experiment,”Japanese
Journal of Applied Physics A 37, No.
6A, 3541-3545 (1998).
46.
Jinyuan Liu, Bing Shan,
Zenghu Chang, “High voltage fast
ramp pulse generation using avalanche transistor,” Rev. Sci. Instrum. 69, No.
8, 3066-3067 (1998).
45. Jorgen Larsson, Zenghu Chang, Ellen Judd,
Phillip A. Heimann, Aaron M. Lindenberg,
Henry C. Kapteyn, Margaret M. Murnane,
Richard W. Lee, Anton Machachek,
Justin S. Wark, Howard A. Padmore,
Roger W. Falcone, "Ultrafast Time-resolved x-ray
diffraction detected by an averaging mode streak camera,” Applications of High
Field and Short Wavelength Sources,
Plenum Press, New York, 267-270 (1998).
44. Andy Rundquist,
Zenghu Chang, Haiwen Wang, Erik Zeek,
Margaret Murnane and Henry Kapteyn, "Soft X-ray Harmonics in the Water
Window,” Applications of High Field and
Short Wavelength Sources, Plenum Press,
New York, 45-51 (1998).
43. Z. Chang, A. Rundquist,
H. Wang, I. Christov, H. Kapteyn
and M. Murnane, “Temporal Phase Control of Soft-X-Ray
Harmonic Emission,” Phys. Rev. A 58,
R30-R33 (1998).
42.
Z. Chang, A. Rundquist, H. Wang,
I. Christov, M. Murnane, H.
Kapteyn, “Generation of Coherent, Femtosecond, X-Ray
Pulses in the "Water Window",” IEEE Journal of Selected Topics in
Quantum Electronics 4,
266-270(1998).
41. C. G. Durfee III,
A. Rundquist, S. Backus, Z. Chang, C. Herhe, H. C. Kapteyn, and M. M. Murnane, “Phase-Matched Generation of Short Wavelength, Ultrashort-Pulse Light in Capillary Waveguides,” Ultrafast
Phenomena XI, 373, Springer-Verlag (1998).
40. Cheng JX, Yang CB, Wen
TS, Wen SH, Tang DY, Zheng
ZJ, Shan B, Liu JY, Chang ZH, Liu XQ, Gao SC, “Twelve-frame camera for soft
X-ray,” Chinese Science Bulletin,
Vol. 42, No. 14, 1215-1217 (1997).
39.
Z. Chang, A. Rundquist, H. Wang, H. Kapteyn,
M. Murnane, “Generation of coherent soft X-rays at
2.7 nm using high harmonics,” Phys. Rev.
Lett. 79,
2967 (1997).
38.
J. Larsson, Z.
Chang, E. Judd, P. J. Schuck, R. W. Falcone, P. A. Heimann, H. A. Padmore, H. C. Kapteyn, P.H. Bucksbaum, M. M. Murnane, R. W.
Lee, A. Machacek, J. S. Wark,
X. Liu and B. Shan, "Ultrafast x-ray diffraction using a streak-camera
detector in averaging mode," Optics Letters 22,1012 (1997).
37.
A. Rundquist, C. Durfee, Z. Chang,
S. Backus, E. Zeek, M. M. Murnane,
H. C. Kapteyn, I. Christov
and V. Stoev, “Ultrafast Laser and Amplifier
Sources,” Applied Physics B 65,161
(1997).
36. Yang Hongru, Yan Xinglong, Wangshuicai, Ren Youlai, Chang Zenghu, “CW output in diode pumped Nd:LMA laser operating at 1054
nm,” Acta Photonica Sinica, Vol.26, No.3, 282(1997), in Chinese.
35. Shan Bing, Liu JinYuan,
Chang Zenghu, Liu Xiuqin, Gao Shengchen,
Ren Youlai, Zhu Wenhua, Luo Yongming, Hou Xun, Cheng JinXiu, Yang Cunbang, Wen Tianshu,
Tang Daoyuan, Wen Shuhuai, “MCP Gated picosecomnd
x-ray framing camera,” Acta Photonica
Sinica, Vol.26,
No.5, 449-456(1997), in Chinese.
34. Yan Xinglong, Chang Zenghu, Ren Youlai,
Yang Hongru, Hou Xun,
“Laser Diode pumped additive pulse mode-locked Nd:YLF
laser,” Acta Photonica Sinica, Vol.26, No.1, 27-30 (1997), in Chinese.
33. J. Zhou, A. Rundquist,
Z. Chang, J. Peatross, I.P. Christov, M.M. Murnane, and H.C. Kapteyn,
"Enhanced High-Harmonic Generation with Ultrashort
25 fs Pulses," Ultrafast Phenomena X, 120,
Springer-Verlag (1996).
32 Z. Chang, A. Rundquist,
H. Wang, M.M. Murnane, H. C. Kapteyn,
X. Liu, B. Shan, J. Liu, L. Niu, M. Gong, X. Zhang,
R. Lee, "Demonstration of a 0.54 picosecond
X-ray streak camera," SPIE Vol.2869, High Speed Photography and Photonics,
971 (1996).
31. B. Shan, Z. Chang, J. Liu, X. Liu, S. Gao, Y.
Ren, W. Zhu, Y. Luo, J. Cheng, C. Yang, T. Wen, D. Tang, S. Wen, Z. Zheng, "Gated MCP framing camera system," SPIE
Vol.2869, High Speed Photography and Photonics, 182 (1996).
30.
Z. Chang, A. Rundquist, J. Zhou, M.M. Murnane,
H. C. Kapteyn, X. Liu, B. Shan, J. Liu, L. Niu, M. Gong, X. Zhang, "Demonstration of a sub-picosecond X-ray streak camera," Appl. Phys. Lett. 69 (1),
133-135 (1996).
29. Zhao QingChun,
Zhang Xiaoqiu, Gong Meixia,
Chang Zenghu, Hou Xun, “X-Ray calibration of aerial
film,” Acta Photonica Sinica , Vol.25, No.11, 1016-1020 (1996), in Chinese.
28. Shan Bing, Miao XiYun,
Zhang XiaoQiu, Wang Shuyan,
Li BingQian, Chang ZengHu,
He Hai'en, Hu Xin, Tang DaoYuan, “A computer based Image readout system for streak
Camera,” Acta Photonica Sinica ,Vol. 25, No.10, 879-882 (1996), in Chinese.
27. Shan Bing, Liu JinYuan,
Chang ZengHu, “Generation of high voltage picosecond electrical pulse for gating MCP,” Acta Photonica Sinica ,
Vol.25, No.9, 844-846 (1996), in Chinese.
26. Chang Zenghu, Shan Bing, Liu Xiuqin, Yang Hongru, Zhu Wenhua, Liu Jinyuan, Hou Jidong, Gong Meixia, “PS x-ray
framing camera using gated MCP,” Acta Photonica Sinica, Vol.24, No.4,
844-846 (1995), in Chinese.
25. Chang Zenghu,
“Numeric modeling of the MCP characteristics gated by ps
pulses,” Acta Photonica
Sinica,Vol.24, No.4, 347-353 (1995), in Chinese.
24. Chang Zenghu,
“The first collision problem of a MCP gain model,” Acta
Photonica Sinica,Vol.24,
No.4, 318-323 (1995), in Chinese.
23. Chang Zenghu, Shan Bing, Liu Xiuqin, Liu Jinyuan, Zhu Wenhua, Yang Hongru, En Yule,
Gong Meixia, "Gated MCP framing camera with
60-ps exposure time," SPIE Vol. 2549, Ultrahigh- and High- Speed
Photography , Videography and Photonics'95, 53-59
(1995).
22. Chang Zenghu, Shan Bing, Liu Xiuqin, Yang Hongru, Zhu Wenhua, Liu Jinyuan, Hou Jidong, Gong Meixia, "Picosecond X-ray framing camera using gated MCP,” SPIE
Vol.2513, High Speed Photography and Photonics, 106-111 (1995).
21. Chang Zenghu, "Two MCPs gated in cascade
for picosecond framing photography," SPIE
Vol.2513, High Speed Photography and Photonics, 119-124 (1995).
20. Chang Zenghu, "A New method to reduce
the exposure time of the MCP gated framing camera," Acta
Photonica Sinica, Vol. 23, No(Z1),1-7 (1994), in Chinese.
19.
I.P Mercer, Z.
Chang, C.N. Danson, C.B. Edwards, M.H.R. Hutchinson, M.R.G. Miller, "Diode-pumped picosecond
Nd:YLF Laser oscillator at 1053nm," Optics
Communications 107,77-82 (1994).
18. Yang Hongru, Gong Meixia, Chang
Zenghu, "Single shot autocorrelator for
measuring picosecond laser pulse at 1.06mm," Acta Photonica Sinica, Vol.22,(Z1)372-374 (1993), in Chinese.
17. M.H. Key, J.R.W. Barr, L. Barzanti,
Z. Chang, A. Damerell, C.N. Danson, C.B.
Edwards, J.M. Evans, S. Hancock, D.C. Hanna, C.J. Hooker, J.R. Houliston, M.H.R. Hutchinson, A.K. Kidd, S. Luan, I.P.
Mercer, G.H.C. New, P.A. Norreys, K. Osvey, D.A. Pepler, D.A. Rodkiss, I.N. Ross, F.P. Schafer, M.J.Show,
W.Sibbett, R.A. Smith, S. Szatmari,
P. Taday, W.T. Toner, T. Winstone,
R.W. Wyatt, F. Zhou, "Generation of ultrabright
beams in high energy Nd:glass and KrF
laser systems," OSA Proceedings on
Short Wavelength V, Vol. 17,21-259 (1993).
16.
A.R. Bell, F.N.
Beg, Z. Chang, A.E. Dangor, C.N. Danson,
C.B. Edwards, A.P. Fews, M.H.R. Hutchinson, S. Luan,
P. Lee, P.A. Smith, P.F. Taday, F. Zhou,
"Observations of plasma confinement in picosecond
laser-plasma interactions," Phys. Rev. E 48, 2087 (1993).
15.
C. N. Danson,L. Barzanti,
Z. Chang, A. Damerell, C.B. Edwards, S. Hankock, M.H.R. Hutchinson, M.H. Key, S. Luan, R. Mahadeo, I.P.
Mercer, P. Norreys, D.A. Pepler,
D.A. Rodkiss, I. Ross, M.A. Smith, R.A. Smith,P. Taday, W.T. Toner, K. Wigmore, R.W.W.
Wyatt, F. Zhou, "High contrast multi-terrawatt
pulse generation using chirped pulse amplification on the VULCAN laser
facility," Optics Communications 103,
392-397 (1993).
14. C.N. Danson, L. Barzanti, Z. Chang, A. Damerell,
M.D. Dooley, C.B. Edwards, S. Hankock, M.H. Key, R. Mahadeo, M.R.G. Miller, P. Norreys,
C.E. Ollman, D.A. Rodkiss,
I. Ross, M.A. Smith, P.F. Taday, W.T. Toner, K. Wigmore, T.B. Winstone, R.W.W.
Wyatt, S. Luan, F. Beg, A. Bell, A.E. Dangor, M.H.R.
Hutchinson, P. Lee, I.P. Mercer, R.A. Smith, F. Zhou, A.P. Fews,
"Chirped pulse amplification experiment on the VULCAN Nd:Glass
laser facility," SPIE 1860, Short-pulse High-intensity Lasers and
Applications II, 10-20 (1993).
13. Yang Hongru, Chang
Zenghu, "Study of CPM Nd:YAG
laser with streak camera," Laser Journal, Vol. 13(1), (1992), in Chinese.
12. Yang Hongru, Chang
Zenghu, Gong Meixia, Niu Lihong, "Compression of picosecond
light pulse at 1.06mm by using optical fiber and grating pair," Acta Photonica Sinica, Vol.
21(3),161(1992), in Chinese.
11. M.W. Phillips, J. R.M. Barr, D.W. Hughes,
D.C. Hanna, Z. Chang, C.N. Danson, C.B. Edwards,
"Self-starting additive-pulse mode locking of a Nd:LMA
laser,” Optics Letter 17, 1453-1455
(1992).
10. Chang Zenghu, Wei Zhiyi,
Yang Hongru, "Numeric simulation of the
characteristics of ultrashort pulse in optic
fiber," High speed photography and photonics, Vol. 20(1), 69 (1991), in
Chinese.
9. Chen Junren, Chen
Guofu, Chang Zenghu, Tong Hengwei,
Cha Guanhua, "Review of the 19th ICHSPP,"
High speed photography and photonics, Vol. 19(4),305-322(1990), in Chinese.
8. Hou Xun, Zhang Xiaoqiu, Gong Meixia, Chang
Zenghu, Lei Zhiyuan, Yang Bingzhou,
Yu Hongbin, Liu Xiuqin,
Shan Bing, Gao Shengshen, Zhao Wei, "Picosecond X-ray streak camera improvement," SPIE Vol.
1358, High Speed Photography and Photonics, 868-873 (1990).
7. Chang Zenghu, Hou Xun,
Zhang Yongfeng, Zhu Wenhua, Niu
Lihong, Liu Xiuqin, "A
new framing tube with high spatial resolution," SPIE Vol. 1358, High Speed
Photography and Photonics, 541-545 (1990).
6. Chang Zenghu, Hou Xun,
Zhang Xiaoqiou, Gong Meixia,
Niu Lihong, Yang Hongru, Liu Xiuqin, Lei Zhiyuan, "Development of picosecond
X-ray framing camera," SPIE Vol. 1358, High Speed Photography and
Photonics, 614 (1990).
5. Lei Zhiyuan,
Chang Zenghu, Hou Xun, Zhang Xiaoqiou,
Gong Meixia, Liu Xiouqin,
Song Kechang, "Soft X-ray photocathode of image
tube for high speed photography," High speed photography and photonics,
Vol. 18 (3), 235-244 (1989), in Chinese.
4. X. Zhang, M. Gong, Z. Chang, Z. Lei, B.
Yang, K. Song, Z. Song, "Picosecond soft X-ray
streak camera," High speed photography and photonics, Vol. 18 (2), 117-130
(1989), in Chinese.
3. Z. Chang, X, Hou, X. Zhang, M. Gong, L. Niu, H. Yang, Z. Lei, X. Liu, "Primary investigation
of picosecond framing camera," High speed
photography and photonics, Vol. 17 (1), 1-6 (1988), in Chinese.
2. Zhang Xiaoqiou,
Gong Meixia, Chang Zenghu, Lei Zhiyuan,
Yang Binzhou, Song Kechang,
Song Zongxian, "Picosecond
soft X-ray streak camera," SPIE Vol. 1032, High Speed Photography and
Photonics, 602-607 (1988).
1.
Chang Zenghu, Hou Xun, Zhang Xiaoqiou, Gong Meixia, Niu Lihong,
Yang Hongru, Lei Zhiyuan,
Liu Xiuqin, "Investigation of picosecond framing camera," SPIE Vol. 1032, High Speed
Photography and Photonics, 608-612 (1988).
1. Bing Shan, Chun
Wang and Zenghu Chang, “High peak-power kilohertz laser systems employing
singe-stage multi-pass amplification”, U. S. Patent No. 7,050,474, issued on
May 23, 2006.
2. Chengquan Li,
Eric moon, and Zenghu Chang, “Stabilization of carrier envelope phase by
feedback controlling grating separation" exclusive license agreement
signed with Femtolasers GmbH.
invited talks (Since 2004)
30. Zenghu Chang,
“Generation of single isolated attosecond pulses with multi-cycle lasers,” Symposium in Ultrafast Intense Laser Science 7, to be held
in Kyoto,
Japan from November 24-28, 2008.
29. Hiroki
Mashiko, “Generation of attosecond
pulses using polarization gating and two-color gating,” 11th
International Conference on Multiphoton Processes. Heidelberg, Germany, 18 - 23 September 2008.
28. Zenghu Chang,
“Attosecond light switch,” University of Center Florida, Aug. 28, 2008.
27. Zenghu Chang, “Double optical gating for
attosecond pulse generation,” Massachusetts Institute of Technology, March 19,
2008.
26. Hiroki Mashiko, “Double Optical
Gating of High Harmonic Generation,” CLEO, San Jose, May 4–9, 2008.
25. Zenghu Chang,
“Generation of attosecond pulses with multi-cycel lasers,” General Physics
Institute, Russian Academy of Sciences, Moscow, Russia, 18 July, 2008.
24. Zenghu Chang, “Generation of attosecond pulses with Double Optical
Gating,” International symposium on topical problems of nonlinear
wave physics, Physics of extreme light,
Nizhny Novgorod, Russia, 20-26
July, 2008.
23. (Plenary)
“Attosecond switches,” The 11th meeting
of the Southeast Ultrafast Conference, University of Arkansas, Fayetteville, Jan. 10-11, 2008.
22. “Attosecond
pulse generation by double optical gating,” Johannes Gutenberg-Universität Mainz, Germany, November 29, 2007.
21. “Attosecond
pulse generation by double optical gating,” Gesellschaft
für Schwerionenforschung mbH (GSI), Germany, November 27, 2007.
20. “Attosecond
optical switches,” Friedrich-Schiller-University Jena, Germany, November 23, 2007.
19. “Attosecond
pulse generation by double optical gating,” Max Planck Institute for Nuclear
Physics, Heidelberg,
Germany, November 20, 2007.
17. “Stabilizing the CE phase of grating based
CPA lasers,” Max Planck Institute for Quantum Optics (MPQ) Garching,
October 16, 2007.
16.
Zenghu Chang,
“Stabilizing Carrier-envelope phase of amplified laser pulses,” National
Research Council Canada, Nov.
22, 2006, Ottawa, Canada.
15. (Plenary)
Zenghu Chang, “Generation and Measurement of attosecond/femtosecond x-ray
pulses,” The 27 The 27th International
Congress on High-Speed Photography and Photonics, 17-22 September 2006, Xi’an, China.
14. Zenghu Chang,
“Stabilizing Carrier-envelope phase of amplified pulses for attosecond research,” Attosecond Science
Workshop, Kavli Institute of Theoretical Physics,
July 31 to Sept. 15, 2006. Santa Barbara, CA.
13. Zenghu Chang,
“Carrier-envelope phase stabilization for attosecond research,” Institute of
Physics, Chinese Academy of Sciences, Sept. 22, 2006, Beijing, China.
12.
Zenghu Chang, “Attosecond pulse generation with polarization gating,” Gordon Research Conference on Multiphoton
Processes, June 11-16, 2006, Tilton, NH.
11. Zenghu Chang,
“Attosecond supercontinuum,” Los Alamos National
Laboratory, April 2006.
10. Zenghu Chang,
“Probing carrier envelope phase with attosecond XUV,” University of Rochester, February 2006.
9.
Zenghu Chang, “Generation of attosecond soft
x-ray Supercontinuum,” The 89th OSA annual
meeting, October 18-19, 2005, Tucson, Arizona.
8. Zenghu Chang,
“Generation of attosecond XUV supercontinuum by a
polarization gating,” 36th Meeting of the APS Division of Atomic, Molecular and
Optical Physics, Lincoln, Nebraska, 17-21 May, 2005.
7. Zenghu Chang, “Generation
of XUV Supercontinuum and Single Attosecond Pulses,” Conference on Lasers and
Electro-Optics and the Quantum Electronics and Laser Science Conference
(CLEO/QELS)”, Baltimore, Maryland, 22-26
May, 2005.
6. Zenghu Chang, “Generation of XUV supercontinuum
and attosecond pulses by half-cycle gating,” Argonne National Laboratory, March 2004.
5. Zenghu Chang, “Generation of attosecond XUV supercontinuum,” Institute of Physics, Chinese Academy of
Sciences, Beijing China, May 2004.
4. Zenghu Chang, “The theory of attosecond pulse generation by
polarization gating,” Atomic physics seminar at Kansas State University, 2004.
3.
M. M. Shakya, Z. Chang, "An accumulative x-ray streak camera with 280-fs
resolution", SPIE's 49th Annual Meeting, Denver, August
2004.
2. Bing Shan,
Shambhu Ghimire, and Zenghu Chang, “Generation of Attosecond Soft
X-ray Supercontinuum,” The 9th International
Conference on X-Ray Lasers Beijing, China, May
24-28, 2004.
1. Bing Shan, Shambhu Ghimire, and Zenghu
Chang, “Generation of Attosecond Soft X-ray Supercontinuum,” Final ATTO network
meeting, Symposium on “Attosecond generation, metrology and applications” Ringberg Castle, D-83700 Rottach-Egern,
Germany 4 – 7 April 2004.