D
Dane R. Austin
Researcher at Imperial College London
Publications - 75
Citations - 1597
Dane R. Austin is an academic researcher from Imperial College London. The author has contributed to research in topics: Ultrashort pulse & Supercontinuum. The author has an hindex of 20, co-authored 74 publications receiving 1393 citations. Previous affiliations of Dane R. Austin include University of Oxford & University of Sydney.
Papers
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Journal ArticleDOI
Multi-octave supercontinuum generation from mid-infrared filamentation in a bulk crystal
Francisco Silva,Dane R. Austin,Alexandre Thai,Matthias Baudisch,Michael Hemmer,Daniele Faccio,Arnaud Couairon,Jens Biegert +7 more
TL;DR: This work presents an all-in-one solution, the first supercontinuum in a bulk homogeneous material extending from 450 nm into the mid-infrared, based on filamentation of femtosecond mid-Infrared pulses in the anomalous dispersion regime.
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Spatio-temporal focusing of an ultrafast pulse through a multiply scattering medium.
David J. McCabe,Ayhan Tajalli,Dane R. Austin,Pierre Bondareff,Ian A. Walmsley,Sylvain Gigan,Béatrice Chatel +6 more
TL;DR: This approach shows that a multiply scattering medium can be put to profit for light manipulation at the femtosecond scale, and has a diverse range of potential applications that includes quantum control, biological imaging and photonics.
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High-flux soft x-ray harmonic generation from ionization-shaped few-cycle laser pulses.
Allan S. Johnson,Dane R. Austin,David A. Wood,Christian Brahms,Andrew Gregory,Konstantin B. Holzner,Sebastian Jarosch,Esben Witting Larsen,Susan Parker,Christian Strüber,Peng Ye,John W. G. Tisch,Jon P. Marangos +12 more
TL;DR: It is shown that high-harmonic generation can produce higher photon energies and flux by using higher laser intensities than are typical, strongly ionizing the medium and creating plasma that reshapes the driving laser field.
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Dispersive wave blue-shift in supercontinuum generation.
TL;DR: Numerically study dispersive wave emission during femtosecond-pumped supercontinuum generation in photonic crystal fibres and shows that in fact the red-shift of the soliton causes an additional blue- shift of the resonant frequency which is in good agreement with full simulations.
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Invited Review Article: Technology for Attosecond Science
F. Frank,Christopher Arrell,Tobias Witting,W. A. Okell,J. McKenna,J. S. Robinson,C. A. Haworth,Dane R. Austin,H. Teng,Ian A. Walmsley,Jonathan P. Marangos,John W. G. Tisch +11 more
TL;DR: A complete technological system at Imperial College London for Attosecond Science studies, which comprises a few-cycle, carrier envelope phase stabilized laser source which delivers sub 4 fs pulses to a vibration-isolated attosecond vacuum beamline, is described.