Horváth Zoltán
hivatkozási listája / list of citations
Z. Bor, Z. L. Horváth
Distortion of Femtosecond Pulse Fronts in Lenses
Topics in Appl. Phys. vol. 70, Ed. M. Stuke (Springer Verlag, Berlin,
1992), p. 87
IF: 0.632
1.
M. Kempe, W. Rudolph,
Impact of chromatic and spherical
aberration on the focusing of ultrashort light pulses by lenses,
Opt. Lett. 18, 137 (1993)
2.
M. Kempe, W. Rudolph,
Analysis of confocal microscopy under
ultrashort light‑pulse illumination,
J. Opt. Soc. Am. A/10, 240 (1993)
3.
S. W. Hell, P. E.
Hanninen, J. Salo, A. Kuusisto, E Soini, T. Wilson and J. B. Tan,
Pulsed and CW Confocal Microscopy ‑
A Comparison of Resolution and Contrast,
Opt. Commun. 113, 144 (1994)
4.
C. Radzewicz, M. J. la
Grone, J. S. Krasinski,
Interferometric measurement of
femtosecond pulse distortion by lenses,
Optics Commun. 126, 185 (1996)
5.
M. Schrader and S. W.
Hell,
Wave‑Fronts in the Focus of a Light‑Microscope,
J. Microsc.‑ Oxford 184, 143 (1996)
Zs. Bor, Z. L. Horváth
Distortion of Femtosecond Pulse in Lenses. Wave Optical Description
Optics Commun. 94 (1992) 249-258
IF: 1.299
6.
M. Kempe, W. Rudolph,
Femtosecond pulses in the focal region of
lenses,
Phys. Rev. A 48(6) 4721‑4729 (1993)
7.
S. Szatmary,
High‑brightness ulraviolet excimer
lasers,
Applied Physics B, Lasers and Optics 58, 211 (1994)
8.
R. W. Ziolkowski, D. B.
Davidson,
Designer pulsed beams for enhanced space‑time
focusing,
Optics Letters 19, 284 (1994)
9.
P. A. Hatherly, M.
Stankiewicz, K. Codling, L. J. Frasinski and G. M. Cross,
The multielectron dissociative ionization
of molecular iodine in intense laser fields,
J. Phys. B.: At. Mol. Opt. Phys. 27, 2993 (1994)
10.
G. M. Cross, L. J.
Frasinski, L. Zhang, P. A. Hatherly, K. Codling, A. J. Langley and W. Shaikh,
A search for direct (correlated) two‑electron
emisson from uranium in intense laser fields,
J. Phys. B-At. Mol. Opt. Phys. 27, 1371 (1994)
11.
L. J. Frasinski, P. A.
Hatherly, K. Codling, M. Larsson, A. Persson and C‑G. Wahlstrom,
Multielectron dissociative ionization of
CO2 in intense laser fields,
J. Phys. B-At. Mol. Opt. Phys. 27, L109 (1994)
12.
P. A. Hatherly, M.
Stankiewicz, K. Codling, et al.,
The Multielectron Dissociative Ionization
of Molecular‑iodine in Intense Laser Fields,
J. Phys. B‑At. Mol. Opt. 27(14), 2993‑3003 (1994)
13.
K. Osvay and I. N. Ross,
On a pulse compressor with gratings
having arbitrary orientation,
Optics Commun. 105, 271 (1994)
14.
K. Osvay, I. N. Ross, C.
J. Hooker, et al.,
Laser‑excited Nonlinear Properties
of Baf2 and its Application in a Single‑shot Spatially Insensitive
Autocorrelator,
Appl. Phys. B‑Lasers O 59(3), 361‑365 (1994)
15.
D. B. Davidson, R. W.
Ziolkowski,
Body‑of‑revolution Finite‑difference
Time‑domain Modeling of Space‑time Focusing by a 3‑dimensional
Lens,
J. Opt. Soc. Am. A 11, 1471‑1490 (1994)
16.
E. Esarey, P. Sprangle,
M. Pillof and J. Krall,
Theory and group velocity of ulrashort,
tightly focused laser pulses,
J. Opt. Soc. Am. B. 12, 1695 (1995)
17.
S. Ameer-Beg, A. J.
Langley, I. N. Ross, W. Shaikh and P. F. Taday,
An achromat lens for focusing femtosecond
pulses: direct measurement of femtosecond pulse front distortion using a
second-order autocorrelation technique,
Optics Commun. 122, 99 (1996)
18.
C. Radzewicz, M. J. la
Grone, J. S. Krasinski,
Interferometric measurement of
femtosecond pulse distortion by lenses,
Optics Commun. 126, 185 (1996)
19.
Z. Wang, Z. Zhang, Z. Xu
and Q. Lin,
Space‑Time Profiles of an
Ultrashort Pulsed Gaussian Beam,
IEEE Journal of Quantum Electronics, 33, 566 (1997)
20.
M. Muller, J. Squier, R.
Wolleschensky, et al.,
Dispersion Pre‑compensation of 15
Femtosecond Optical Pulses for High‑numerical‑aperture Objectives,
J. Microsc‑Oxford 191, 141 (1998 )
21.
G. O. Mattei, M. A. Gil,
Spherical Aberration in Spatial and
Temporal Transforming Lenses of Femtosecond Laser Pulses,
Appl. Optics 38(6), 1058‑1064 (1999)
22.
Q. Cao,
Pulsed negative‑power‑function
light beams,
J. Opt. Soc. Am. B 16(10) 1786‑1789 (1999)
23.
Q. Cao and S. Chi,
Ultrashort pulsed sinc‑Gaussian
light beams,
J. Opt. Soc. Am. B 17(7) 1304‑1312 (2000)
24.
R. Netz, T. Feurer,
Diffraction of ultrashort laser pulses
and applications for measuring pulse front distortion and pulse width,
Appl.Phys. B‑Lasers and Optics 70 (6), 813‑819 (2000)
25.
R. Netz, T. Feurer, R.
Wolleschensky, et al.,
Measurement of the pulse‑front
distortion in high‑numerical‑aperture optics,
Appl.Phys. B‑Lasers and Optics 70 (6), 833‑837 (2000)
26.
J. Squier and M. Muller,
High resolution nonlinear microscopy: A
review of sources and methods for achieving optimal imaging,
Rev. Sci. Instrum. 72 (7), 2855‑2867 (2001)
27.
S. V. Kukhlevsky, G. Nyitray, V. L. Kantsyrev, et
al.,
Detailed structure of fs pulses passing
through straight and tapered optical waveguides,
Opt. Commun. 192 (3‑6), 225‑229 (2001)
28.
M. A. Porras, F. Salazar‑Bloise and L.
Vazquez,
Focusing properties of shocking optical
pulses,
Opt. Lett. 26 (6), 376‑378 (2001)
29.
I. Walmsley, L. Waxer L
and C. Dorrer,
The role of dispersion in ultrafast
optics,
Rev. Sci. Instrum. 72 (1), 1‑29 (2001)
30.
S.V. Kukhlevsky, G.
Nyitray,
Propagation of X‑ray femtosecond pulses
through tapered nanometer‑scale capillary waveguides,
Phys. Lett. A 291, 459‑464 (2001)
31.
Kozma I Z, Almasi G,
Hebling J,
Geometrical optical modeling of
femtosecond setups having angular dispersion,
Appl. Phys. B‑Lasers O 76, 257‑261 (2003)
32.
Zalvidea D,
Phase mask for spatial and temporal
control of ultrashort light pulses focused by lenses,
J. Opt. Soc. Am. A 20, 1981‑1986 (2003)
33.
Nabekawa Y and
Midorikawa K,
High‑order pulse front tilt caused
by high‑order angular dispersion,
Opt. Express 11, 3365‑3376 (2003)
34.
Norin J, Osvay K, Albert
F, Descamps D, Yang JJ, L'Huillier A, Wahlstrom CG,
Design of an extreme-ultraviolet
monochromator free from temporal stretching,
Appl. Opt. 43 1072 (2004)
35.
Lu B, Liu ZJ,
Effect of material dispersion on the
focusing of isodiffracting ultrashort pulses by a lens,
J. Mod. Opt. 51, 645 (2004)
36.
Zalvidea D, Duchowicz R,
Sicre EE,
Temporal transformation of periodic
incoherent ultrashort light pulses by chirped fiber gratings,
Appl. Optics 43 3005-3009 (2004)
37.
Planchon TA, Ferre S,
Hamoniaux G, et al.
Experimental evidence of 25-fs laser
pulse distortion in singlet beam expanders,
Opt. Lett. 29 2300-2302 (2004)
38.
Deng DM, Guo H, Han DG,
Liu MW, Li CF
Effects of dispersion and longitudinal
chromatic aberration on the focusing of isodiffracting pulsed Gaussian light
beam
Physics Letters A 334 73-80 (2005)
39.
Fuchs U, Zeitner UD,
Tunnermann A
Ultra-short pulse propagation in complex optical systems
Optics Express 13 3852-3861 (2005)
40.
Amir W, Planchon TA,
Durfee CG, et al.
Simultaneous visualization of spatial and chromatic aberrations by
two-dimensional Fourier transform spectral interferometry
Optics Letters 31 (2006) 2927-2929
41.
Veetil SP, Schimmel H,
Wyrowski F, et al.
Wave optical modelling of focusing of an ultra short pulse
Journal of Modern Optics 53 (2006) 2187-2194
42.
Li YL, Crowell R
Shortening of a laser pulse with a self-modulated phase at the focus of a
lens
Optics Letters 32 (2007) 93-95
43.
Zhong Y
Focal shift in focused truncated pulsed-laser beam
Applied Optics 46 (2007) 6454-6459
Z. Bor, Z. L. Horváth
Behaviour of Femtosecond Pulses in Lenses,
Proc. of the VIIth Symposium on Ultrafast Processes in Spectroscopy, Bayreuth,
The Institute of Physics Publishing, Bristol, 1992.
44.
M. Kempe, U. Stamm, R.
Gutewort, B. Wilhelmi and W. Rudolph,
Spatial and temporal distortion of
femtosecond pulses after tight focusing,
Proc. of the VIIth Symposium on Ultrafast Processes in Spectroscopy, Bayreuth,
The Institute of Physics Publishing, Bristol, 1992 (p. 159)
45.
M. Kempe, U. Stamm, and
B. Wilhelmi,
Spatial and temporal transformation of
femtosecond laser pulses by lenses with annular aperture,
Optics Commun 89, 119 (1992)
46.
K. Osvay, Z. Bor, B.
Rácz and G. Szabó,
Propagation-time-dispersion in a streak
camera lens,
Proc. of the VIIth Symposium on Ultrafast Processes in Spectroscopy, Bayreuth,
The Institute of Physics Publishing, Bristol, 1992 (p. 169)
Z. L. Horváth, Zs. Benkõ, A. P. Kovács, H. A. Hazim, Zs. Bor
Propagation of Femtosecond Pulses through lenses, gratings, and slits
Optical Engineering vol. 32 No. 10 (1993) p. 2491
IF: 0.60
47.
E. Ibragimov, E. A.
Volynkina,
Effect of initial space distribution on
the temporal form of ultrashort light pulses in the focal plane of a lens,
Optics Letters, 19, 2140 (1994)
48.
Z. Wang, Z. Xu and Z.
Zhang,
Diffraction integral formulas of pulsed
wave field in the temporal domain,
Optics Letters, 22, 354 (1997)
49.
G. P. Agrawal,
Spectrum-induced changes in diffraction
of pulsed optical beams,
Optics Commun. 157, 52 (1998)
50.
G. P. Agrawal,
Far‑field diffraction of pulsed
optical beams in dispersive media,
Optics Commun. 167, 15-22 (1999)
51.
R. Netz, T. Feurer,
Diffraction of ultrashort laser pulses
and applications for measuring pulse front distortion and pulse width,
Appl. Phys. B‑Lasers and Optics 70, 813‑819 (2000)
52.
l.V.Minin and O.V.Minin,
Correction of Dispersion Distortion of
Femtosecond Pulses by Choosing the Surface Shape of Diffractive Optical
Elements,
Optoelectronics, Instrumentation and Data Processing, 40 121 (2004)
53.
S. Zeng, D. Li, X. Lv,
J. Liu, Q. Luo:,
Pulse broadening of the femtosecond pulses in a
Gaussian beam passing
an angular disperser,
Opt. Lett. 32 (2007) 1180-1182
54.
D. R.. Li, S. Q. Zeng, X. H. Lv, et al.
Dispersion characteristics of acousto-optic deflector
for scanning Gaussian laser beam of femtosecond pulses
Optics Express 15 (2007) 4726-4734
55.
D. O. Golodnikov, I.V.
Minin, O.V. Minin
Femtosecond Pulse Focusing by Means of
Diffractive Elements on Tapered Surface
Electron Devices and Materials, 2007. EDM'07. 8th Siberian
56.
Li DR, Lv XH, Zeng SQ,
et al.
A generalized analysis of femtosecond laser pulse broadening after angular
dispersion
Optics Express 16 (2008)
237-247
57.
D. Li, X. Lv, S. Zeng, Q. Luo
Beam spot size evolution of Gaussian
femtosecond pulses after angular dispersion
Optics Letters 33 (2008) 128-130
Z. L. Horváth, Zs. Bor
Focussing of Femtosecond Pulses Having Gaussian Spatial Distribution
Optics Commun. 100 (1993) 6-12
IF: 1.110
58.
E. Esarey, P. Sprangle,
M. Pillof and J. Krall,
Theory and group velocity of ulrashort,
tightly focused laser pulses,
J. Opt. Soc. Am. B. 12, 1695 (1995)
59.
C. Radzewicz, M. J. la
Grone, J. S. Krasinski,
Interferometric measurement of
femtosecond pulse distortion by lenses,
Optics Commun. 126, 185 (1996)
60.
C. J. R. Sheppard and X.
S. Gan,
Free‑Space Propagation of
Femtosecond Light‑Pulses,
Opt. Commun. 133, 1 (1997)
61.
Q. Cao,
Pulsed negative‑power‑function
light beams,
J. Opt. Soc. Am. B 16(10) 1786‑1789 (1999)
62.
Q. Cao and S. Chi,
Ultrashort pulsed sinc‑Gaussian
light beams,
J. Opt. Soc. Am. B 17(7) 1304‑1312 (2000)
63.
R. Netz, T. Feurer,
Diffraction of ultrashort laser pulses
and applications for measuring pulse front distortion and pulse width,
Appl.Phys. B‑Lasers and Optics 70 (6), 813‑819 (2000)
64.
C. J. R. Sheppard,
Bessel pulse beams and focus wave modes,
J. Opt. Soc. Am. A 18 (10), 2594‑2600 (2001)
65.
Pu JX, Nemoto S,
Spectral shifts of partially coherent
beams focused by a lens with chromatic aberration,
Opt. Commun. 207, 1‑5 (2002)
66.
Zhang SY, Ren YH, Lupke
G,
Ultrashort laser pulse beam shaping,
Appl. Optics 42 (4), 715‑718
(2003)
67.
Lu B, Liu ZJ,
Effect of material dispersion on the
focusing of isodiffracting ultrashort pulses by a lens,
J. Mod. Opt. 51, 645 (2004)
68.
Pu JX, Cai C, and Nemoto
S,
The spectral changes of partially
coherent light focused by an apertured lens with chromatic aberration,
Chinese Optics Letters 2, 239 (2004)
69.
Pu JX, Cai C, Nemoto S,
Spectral switches of partially coherent
light focused by a filter-lens system with chromatic aberration,
J. Opt. Soc. Am. A 21 994-999 (2004)
70.
Deng DM, Guo H, Han DG,
Liu MW, Li CF
Effects of dispersion and longitudinal
chromatic aberration on the focusing of isodiffracting pulsed Gaussian light
beam
Physics Letters A 334 73-80 (2005)
71.
Hommelhoff P, Sortais Y,
Aghajani-Talesh A, et al.
Field emission tip as a nanometer source of free electron femtosecond pulses
Physical Review Letters 96 (2006) Article Number: 077401
72.
Veetil SP, Schimmel H,
Wyrowski F, et al.
Wave optical modelling of focusing of an ultra short pulse
Journal Of Modern Optics 53 (2006) 2187-2194
73.
Zhong Y
Focal shift in focused truncated pulsed-laser beam
Applied Optics 46 (2007) 6454-6459
Z. L. Horváth and Zs. Bor
Behaviour of Femtosecond Pulses on The Optical Axis of a Lens. Analytical
Description
Optics Commun. 108 (1994) 333-342
IF: 1.205
74.
M. Müller, J. Squier and
G. J. Brankenhoff,
Measurement of femtosecond pulses in the
focal point of a high-numerical-aperture lens by two-photon absorption,
Optics Letters 20, 1038 (1995)
75.
G. J. Brankenhoff, M.
Müller and J. Squier,
Femtosecond Pulse‑Width Control in
Microscopy by 2‑Photon Absorption Autocorrelation,
J. Microsc‑Oxford 179, 253 (1995)
76.
M. Müller, J. Squier and
G. J. Brakenhoff,
Measurement of Femtosecond Pulses in the
Focal Point of a High Na Lens Using 2‑Photon Absorption,
Zoological Studies 34, 101 (1995)
77.
E. Esarey, P. Sprangle,
M. Pillof and J. Krall,
Theory and group velocity of ulrashort,
tightly focused laser pulses,
J. Opt. Soc. Am. B. 12, 1695 (1995)
78.
J. Paye and A. Migus,
Space‑Time Wigner Functions and
Their Application to the Analysis of a Pulse Shaper,
J. Opt. Soc. Am. B. 12, 1480 (1995)
79.
S. Ameer-Beg, A. J.
Langley, I. N. Ross, W. Shaikh and P. F. Taday,
An achromat lens for focusing femtosecond
pulses: direct measurement of femtosecond pulse front distortion using a
second-order autocorrelation technique,
Optics Commun. 122, 99 (1996)
80.
C. Radzewicz, M. J. la
Grone, J. S. Krasinski,
Interferometric measurement of
femtosecond pulse distortion by lenses,
Optics Commun. 126, 185 (1996)
81.
C. Radzewicz, J. S.
Krasinski, M. J. la Grone, M. Trippenbach and Y. B. Band,
Interferometric measurement of
femtosecond wave‑packet tilting rutile crystal,
J. Opt. Soc. Am. B. 14, 420 (1997)
82.
Y. B. Band, M.
Trippenbach, C. Radzewicz, et al.,
Ultra‑short Pulse Nonlinear Optics:
Second Harmonic Generation and Sum Frequency Generation Without Group Velocity
Mismatch Broadening,
J. Nonlinear Opt. Phys. 5, 477‑494 (1996)
83.
C. Radzewicz, J. S.
Krasinski, M. J. Lagrone, et al.,
Interferometric Measurement of
Femtosecond Wave‑packet Tilting in Rutile Crystal,
J. Opt. Soc. Am. B 14, 420‑424 (1997)
84.
K. Osvay, I. N. Ross, J. M. D. Lister and C.
I. Hooker,
High dynamic range measurement of
temporal shape and contrast of ultrashort UV pulses,
Appl. Phys. B 69, 19‑23
(1999)
85.
S. Jablonski, J.
Badziak,
Focusing large‑aperture beams generated by high‑peak‑power
lasers,
Opt. Appl. 31, 625‑634 (2001)
Z. L. Horváth, K. Osvay and Zs. Bor
Dispersed Femtosecond Pulses in The Vicinity of Focus
Optics Commun. 111 (1994) 478-482
IF: 1.205
86.
Zalvidea D,
Phase mask for spatial and temporal
control of ultrashort light pulses focused by lenses,
J. Opt. Soc. Am. A 20, 1981‑1986 (2003)
87.
Giniunas L, Pocius J,
Danielius R
Energy extraction improvement in picosecond amplifiers by pulse tilting
Optics Letters 31 (2006) 643-645
88.
Miks, A., Novak, J.,
Novak, P.
Modeling of propagation of ultrashort light pulses in optical systems
Proceedings of SPIE - The International Society for Optical Engineering 6617,
art. no. 66170B, 2007
89.
Miks, A., Novak, J.
Distorsion of ultrashort light pulses in optical systems
Proceedings of SPIE - The International Society for Optical Engineering
6609, art. no. 66091G, 2007
Z. L. Horváth, J. Vinkó, Zs. Bor and D. von der Linde
Acceleration of femtosecond pulses to supeluminal velocities by Gouy phase
shift
Appl. Phys. B 63 (1996), 481
IF: 1.515
90.
A. A. Stahlhofen, H.
Druxes,
Observable Tachyons in the Tunneling
Regime?,
Ann. Phys. Berlin 7, 625‑630 (1998)
91.
S. Feng, S. Hunsche, A
Leitenstorfer, H. G. Winful, E. P. Ippen and M. C. Nuss,
Propagation effects at the focus of
single-cycle terahertz pulses,
CLEO99 Conference Digest JthB p. 394
92.
Z. P. Jiang, X. G. Xu,
X. C. Zhang,
Improvement of terahertz imaging with a
dynamic subtraction technique,
Appl Optics 39(17), 2982‑2987 (2000)
93.
M. A. Porras, R. Borghi, M. Santarsiero,
Superluminality in Gaussian beams,
Opt. Commun. 203, 183‑189 (2002)
94.
Pack A, Hietschold M,
Wannemacher R,
Propagation of femtosecond light pulses
through near‑field optical aperture probes,
Ultramicroscopy 92 (3‑4): 251‑264 (2002)
95.
Porras M A, Gonzalo I,
Mondello A,
Pulsed light beams in vacuum with superluminal and negative group velocities,
Phys Rev E 67, 066604/1-9 (2003)
96.
Zhou GQ, Wang SM, Zhao
DM, et al.,
The on‑axis phase and group
velocities of plane wave diffracted by a small circular aperture,
Opt. Commun. 224, 205‑211 (2003)
97.
Lindner F, Paulus GG,
Walther H, Baltuska A, Goulielmakis E, Lezius M, Krausz F,
Gouy phase shift for few-cycle laser
pulses,
Phys. Rev. Lett. 92 Art. No. 113001-1
(2004)
98.
Liu SX, Guo H, Liu MW,
Wu GH,
A comparison on the propagation
characteristics of focused Gaussian beam and fundamental Gaussian beam in
vacuum,
Physics Letters A 327, 254-262 (2004)
99.
Tritschler T, Hof KD, Klein
MW, et al.
Variation of the carrier-envelope phase of few-cycle
laser pulses owing to the Gouy phase: a solid-state-based measurement
Optics Letters 30:753-755 (2005)
100.
Kolomenskii AA,
Jerebtsov SN, Schuessler HA
Focal transformation and the Gouy phase shift of converging one-cycle
surface acoustic waves excited by femtosecond laser pulses
Optics Letters 30 2019-2021 (2005)
101.
Zhou YH, Jiang HB, Gong
QH
Title: Controlling of slope of carrier-envelope phase of few-cycle laser pulses
on propagation distance near the focus
Chinese Physics Letters 24 (2007)
1245-1247
M. Erdélyi, Z. L. Horváth, G. Szabó, Zs. Bor,
F. K. Tittel, Joseph R. Cavallaro, Michael C. Smayling
Generation of Diffraction-Free Beams for Applications in Optical
Microlithography
J. Vac. Sci. Technol. B 15 (1997)
287
IF: 1.591
102.
J. Salo, J. Fagerholm,
A. T. Friberg,
Nondiffracting bulk‑acoustic X waves in crystals,
Phys. Rev. Lett. 83, 1171 (1999)
103.
J. Salo, J. Fagerholm,
A. T. Friberg,
Unified description of nondiffracting X
and Y waves,
Phys. Rev. E 62, 4261‑4275 (2000)
104.
A. Marcinkevicius, S.
Juodkazis, S. Matsuo, et al.,
Application of Bessel beams for
microfabrication of dielectrics by femtosecond laser,
Jpn. J. Appl. Phys. 2 40 (11A) L1197‑L1199 (2001)
105.
Marcinkevičius, A.,
Juodkazis, S., Mizeikis, V., Matsuo, S., Misawa, H.
Application of femtosecond Bessel-Gauss beam in microstructuring of
transparent materials
SPIE - The International Society for Optical Engineering 4271, pp.
150-158 (2001)
106.
S. Chavez‑Cerda,
M. J. Padgett,I. Allison, et al.,
Holographic generation and orbital angular momentum of high‑order Mathieu
beams,
J. Opt. B‑Quantum S O 4, S52‑S57 (2002)
107.
Ferrari J A, Garbusi E,
Frins E M,
Generation of nondiffracting beams by
spiral fields,
Phys. Rev. E 67 art. no. 036619 (2003)
108.
Grunwald, R., Neumann,
U., Griebner, U., Kebbel, V., Kuehn, H.-J.
Spatio-temporal control of laser beams with thin-film shapers
Proceedings of SPIE - The International Society for Optical Engineering 5333,
pp. 1-11 (2004)
109.
Sedukhin AG,
Generalized periodically focused beams
and multiple on‑axis lens imaging,
Opt. Commun. 229, 39‑57 (2004)
110.
Dartora CA,
Hernandez-Figueroa HE,
Properties of a localized Mathieu pulse,
J. Opt. Soc. Am. A 21, 662 (2004)
111.
Grunwald R, Neumann U,
Kebbel V, Kuhn HJ, Mann K, Leinhos U, Mischke H, Wulff-Molder D,
Vacuum-ultraviolet beam array generation
by flat micro-optical structures,
Optics Letters 29, 977-979 (2004)
112.
Sedukhin AG,
High-efficiency multiple imaging in
three-dimensional space,
Opt. Commun. 236, 21-31 (2004)
113.
Ciattoni A and Di Porto
P,
Electromagnetic nondiffracting pulses in
lossless isotropic plasmalike media ,
Phys. Rev. E 70, Art. No. 035601 (2004)
114.
Nobrega KZ, Dartora CA
Analysis of on-axis wave focusing through
the use of non annular slits
Opt. Commun. 242, 221-226 (2004)
115.
Carcole E
Diffiraction theory of general nondiffracting beams generated with
finite-aperture systems
Optics Commun. 246 255-274 (2005)
116.
Lopez-Mariscal C,
Bandres MA, Gutierrez-Vega JC, et al.
Observation of parabolic nondiffracting optical fields
Optics Express 13 2364-2369 (2005)
117.
Dartora CA, Nobrega KZ,
Dartora A, et al
Superposition of monochromatic Bessel beams in (k(p), k(z))-plane to obtain
wave focusing: Spatial localized waves
Optics Commun. 249 407-413 (2005)
118.
Álvarez-Elizondo
M.B., Guizar-Sicairos M., Rodríguez-Masegosa,R., Gutiérrez-Vega
J.C.
Construction and characterization of a CO2 axicon based Bessel-Gauss
resonator
Proceedings of SPIE - The International Society for Optical Engineering 5708,
pp. 323-331 (2005)
119.
Polesana P, Faccio D, Di
Trapani P, et al.
High localization, focal depth and contrast by means of nonlinear Bessel
Beams
Optics Express 13 6160-6167 (2005)
120.
Basano L, Ottonello P
Demonstration experiments on nondiffracting beams generated by thermal light
American Journal of Physics 73 826-830 (2005)
121.
Bialynicki-Birula I,
Bialynicka-Birula Z, Chmura B
Trojan states of electrons guided by Bessel beams
Laser Physics 15 1371-1380 (2005)
122.
Grunwald R, Neumann U,
Rosenfeld A
Scalable multichannel micromachining with pseudo-nondiffracting vacuum
ultraviolet beam arrays generated by thin-film axicons
Optics Letters 31 (2006) 1666-1668
123.
Polesana P, Dubietis A,
Porras MA, et al.
Near-field dynamics of ultrashort pulsed Bessel beams in media with Kerr
nonlinearity
Physical Review E 73 (2006) Article Number: 056612
124.
Chulkov RV, Grabtchikov
AS, Busko DN, et al.
Beam quality improvement at Raman conversion of multimode conical beam
J. Opt. Soc. Am. B 23 (2006)
1109-1116
125.
Lopez-Mariscal C,
Bandres MA, Gutierrez-Vega JC
Observation of the experimental propagation properties of Helmholtz-Gauss
beams
Optical Engineering 45 (2006) Article Number: 068001
126.
Dartora CA, Nobrega KZ,
Dartora A, et al
A general theory for the Frozen Waves and their realization through finite
apertures
Optics Communications 265 (2006) 481-487
127.
Sedukhin AG
Effect of multiple equidistant imaging: analyzing the techniques of its
monochromatic reproduction and the forms of manifestation
J. Opt. Soc. Am. A 24 (2007)
2220-2229
128.
Grosjean T, Saleh SS,
Suarez MA, et al.
Fiber microaxicons fabricated by a polishing technique
for the generation of Bessel-like beams
Applied Optics 46
(2007) 8061-8067
Z. L. Horváth, M. Erdélyi, G. Szabó, Zs. Bor, F. K. Tittel and J. R. Cavallaro
Generation of nearly nondiffracting Bessel Beams with Fabry-Perot
interferometer
J. Opt. Soc. Am. A 14 (1997)
3009
IF: 1.658
129.
A. G. Sedukhin,
Marginal phase correction of truncated
Bessel beams,
J. Opt. Soc. Am. A 17, 1059 (2000)
130.
J. Lautanen, V.
Kettunen, P. Laakkonen, et al.,
High‑efficiency production of
propagation‑invariant spot arrays,
J. Opt. Soc. Am. A 17, 2208‑2215 (2000)
131.
A. M. Shaarawi, I. M.
Besieris,
Superluminal tunneling of an
electromagnetic X wave through a planar slab,
Phys. Rev. E 62, 7415‑7421, (2000)
132.
A. M. Shaarawi, I. M.
Besieris,
On the superluminal propagation of X‑shaped
localized waves,
J. Phys. A‑Math. Gen. 33, 7227‑7254 (2000)
133.
A. M. Shaarawi, I. M.
Besieris,
Ultra‑fast multiple tunnelling of
electromagnetic X‑waves,
J. Phys. A‑Math Gen 33, 8559‑8576 (2000)
134.
D. J. Binks and T. A.
King,
Practical Bessel beam pumping of
periodically poled optical parametric oscillators,
J. Mod. Optic 48, 1433‑1445 (2001)
135.
Song, J.E., Yang, X.Y.
Properties of apertured Bessel beams
Journal of Optoelectronics Laser 12 (2), pp. 215-218 (2001)
136.
Sedukhin AG,
Generalized periodically focused beams
and multiple on‑axis lens imaging,
Opt. Commun. 229, 39‑57 (2004)
137.
Sedukhin AG,
High-efficiency multiple imaging in
three-dimensional space,
Opt. Commun. 236, 21-31 (2004)
138.
Carcole E
Diffiraction theory of general nondiffracting beams generated with
finite-aperture systems
Optics Commun. 246 255-274 (2005)
139.
Hernandez-Aranda RI,
Chavez-Cerda S, Gutierrez-Vega JC
Theory of the unstable Bessel resonator
J. Opt. Soc. Am. A 22 1909-1917 (2005)
140.
Hernández-Aranda,
R.I., Chávez-Cerda, S., Gutiérrez-Vega, J.C.
Wave and geometrical analysis of the unstable Bessel resonator
Proceedings of SPIE - The International Society for Optical Engineering 5708,
pp. 311-322 (2005)
141.
Sedukhin AG
Effect of multiple equidistant imaging: analyzing the techniques of its
monochromatic reproduction and the forms of manifestation
J. Opt. Soc. Am. A 24 (2007) 2220-2229
Z. L. Horváth and Zs. Bor
Reshaping of femtosecond pulses by the Gouy phase shift
Phys. Rev. E 60 (1999) 2337
IF: 2.045
142.
P. Saari,
Evolution of subcycle pulses in
nonparaxial Gaussian beams,
Opt. Express 8, 590‑598 (2001)
143.
P. Saari,
Evolution of near‑cycle pulses in
focused optical beams,
Laser Phys. 12, 812‑817 (2002)
144.
T. Feurer, S. Stoyanov,
D. W. Ward, et al.,
Direct visualization of the Gouy phase by
focusing phonon polaritons,
Phys. Rev. Lett. 88, art. no. 2574021 (2002)
145.
K. Wynne,
Causality and the nature of information,
Opt. Commun. 209, 85‑100 (2002)
146.
Xu YB, Lu BD
Spatiotemporal behaviour of isodiffracting hollow Gaussian pulsed beams
Journal Of Optics A-Pure And Applied Optics 9 (2007) 496-501:
Z. L. Horváth and Zs. Bor
Diffraction short pulses with boundary wave theory
Phys. Rev. E 63 (2001) 26601
IF: 2.235
147.
Ashman R, Gu M,
Effect of ultrashort pulsed illumination
on foci caused by a Fresnel zone plate,
Appl. Optics 42, 1852-1855 (2003)
148.
Rozanov NN,
On the diffraction of ultrashort pulses,
Optics and Spectroscopy 95, 299 (2003)
149.
Zalvidea D,
Phase mask for spatial and temporal control
of ultrashort light pulses focused by lenses,
J. Opt. Soc. Am. A. 20, 1981‑1986 (2003)
150.
Han P,
Far-field spectral intensity
characteristics of a time-dependent Gaussian pulse from two types of apodized
slits,
Jpn. J. Appl. Phys. 43, 3386-3393 (2004)
151.
Tolmachev YA
Study of linear optical systems by means of a pulsed method
Journal of Optical Technology 72 1-9 (2005)
152.
Fuchs U, Zeitner UD,
Tunnermann A
Ultra-short pulse propagation in complex optical systems
Optics Express 13 3852-3861 (2005)
153.
Lebedev, M.K.,
Tolmachev, Yu.A., Frolenkova, M.V., Kytmanov, A.V.
Transformation of a femtosecond pulse upon focusing
Quantum Electronics 35 (5), pp. 479-483 (2005)
154.
Tolmachev, Yu.A.,
Lebedev, M.K., Frolenkova, M.V., Kytmanov, A.V.
New approach to the analysis of ultrashort pulses diffraction
Proceedings of SPIE - The International Society for Optical Engineering 5830,
pp. 479-490 (2005)
155.
Fuchs, U., Zeitner,
U.D., Tünnermann, A.
Optics for focusing of ultra-short laser pulses
Proceedings of SPIE - The International Society for Optical Engineering 5962
(1)
156.
van Tilborg J, Schroeder
CB, Filip CV, et al.
Terahertz radiation as a bunch diagnostic for laser-wakefield-accelerated
electron bunches
Physics of Plasmas 13 (2006) Article Number: 056704
157.
Zapata-Rodriguez CJ
Spectral anomalies in supercontinuum focused waves
Optics Communications 263 (2006) 131-134
158.
Zapata-Rodriguez CJ
Temporal effects in ultrashort pulsed beams focused by planar diffracting
elements
J. Opt. Soc. Am. A 23 (2006) 2335-2341
159.
Zapata-Rodriguez CJ,
Porras MA
X-wave bullets with negative group velocity in vacuum
Optics Letters 31 (2006)
3532-3534
160.
Lebedev MK, Tolmachev
YA, Frolenkova MV, et al.
Specific features of the spatiotemporal structure of a broadband signal in
the vicinity of the focal point of a converging spherical wave
Optics and Spectroscopy 100 (2006) 119-125
161.
Mendoza-Yero O,
Minguez-Vega G, Lancis J, et al.
On-axis diffraction of an ultrashort light pulse by
circularly symmetric hard apertures
Optics Express 15 (2007) 4546-4556
162.
Bezak V
Tunneling through inhomogeneous delta barriers as diffraction and scattering
Journal of Mathematical Physics 48 (2007) Article Number: 112108
Z. L. Horváth and Zs. Bor
Focusing of truncated Gaussian beams
Optics Commun. 222 (2003) 51-68
IF: 1.482
163.
Arnold, C.L., Ertmer,
W., Lubatschowski, H.
Simulation of ultrashort pulse induced plasma generation and interaction
within the bulk of transparent Kerr media
Proceedings of SPIE - The International Society for Optical Engineering 6108,
art. no. 610808
164.
Zoriniants, G.,
Kurnosikov, O., De Jonge, W.J.M., Koopmans, B.
Polarization anomaly in near-field magnetooptical microscopy,
Japanese Journal of Applied Physics, 45 (2006) 2111-2115
J.
Kokavecz, Z. L. Horváth, A. Mechler
Dynamical properties of the Q-controlled atomic force microscope
Applied Physics Letters 85, 3232-3234 (2004)
IF: 4.308
165.
Callaghan FD, Yu X,
Mellor CJ
Variable temperature magnetic force microscopy with piezoelectric quartz
tuning forks as probes optimized using Q-control
Applied Physics Letters 87, Art. No. 214106 (2005)
166.
Moreno-Moreno M, Raman
A, Gomez-Herrero J, et al
Parametric resonance based scanning probe microscopy
Applied Physics Letters 88
(2006) Article Number: 193108
167.
Holscher H, Ebeling D,
Schwarz UD
Theory of Q-Controlled dynamic force microscopy in air
Journal of Applied Physics 99 (2006) Article Number: 084311
168.
Holscher H, Schwarz UD
Q-controlled amplitude modulation atomic force microscopy in liquids: An
analysis
Applied Physics Letters 89 (2006) Article Number: 073117
169.
Suo ZY, Yang XH, Avci R,
et al.
HEPES-stabilized encapsulation of Salmonella typhimurium
Langmuir 23 (2007) 1365-1374
170.
Chen LW, Yu XC, Wang D
Cantilever dynamics and quality factor control in AC mode AFM height
measurements
Ultramicroscopy 107 (2007) 275-280
171.
Gunev I, Varol A,
Karaman S, et al.
Adaptive Q control for tapping-mode nanoscanning using a piezoactuated
bimorph probe
Review of Scientific Instruments 78 (2007) Article Number: 043707
172.
Liang J, Scoles G
Nanografting of alkanethiols by tapping mode atomic force microscopy
Langmuir 23 (2007) 6142-6147
173.
Holscher H, Schwarz UD
Theory of amplitude modulation atomic force microscopy with and without
Q-Control
International Journal of Non-Linear Mechanics 42 (2007) 608-625
174.
Passian A, Lereu AL, Yi
D, et al.
Stochastic excitation and delayed oscillation of a micro-oscillator:
Physical Review B 75 (2007)
Article Number: 233403
Z. L. Horváth, J. Klebniczki, G. Kurdi and A. P. Kovács
Experimental investigation of boundary wave pulse
Optics Commun.239, 243-250 (2004)
IF: 1.581
175.
Tang L, Cu C, Chen B, et
al.
Analysis of near-field diffraction pattern of a metallic probe tip with the
boundary diffraction wave method
Chinese Physics Letters 22 2443-2446 (2005)
176.
Kumar R, Kaura SK,
Chhachha DP, et al.
Direct visualization of Young's boundary diffraction wave
Optics Communications 276 (2007) 54-57
Kokavecz
J, Tóth Z, Horváth ZL, Heszler P and Mechler A.
Novel amplitude and frequency demodulation algorithm for a virtual dynamic
atomic force microscope Nanotechnology 17 (2006) S173-S177
IF: 3.037
177.
Nony L, Baratoff A
Noncontact atomic force microscopy simulator with phase-locked-loop
controlled frequency detection and excitation
Physical Review B 74 (2006) Article Number: 235439