Terawatt Post compression of high energy fs pulses using ionization: A way to overcome the conventional limitation in energy of few optical cycle pulses

Terawatt Post compression of high energy fs pulses using ionization: A way to overcome the conventional limitation in energy of few optical cycle pulses

By using optical-field-ionization of helium we postcompress 50 fs pulses to 8 fs with a pulse energy of 8,7 mJ. Hence few cycle pulses were obtained with TW peak power and a good shot-to-shot stability.

Bibliographic Details
Main Authors: Descamps D., Mével E., Petit S., Fourcade-Dutin C., Dubrouil A., Hort O., Constant E.
Format: Article
Language:English
Published: EDP Sciences 2013-03-01
Series:EPJ Web of Conferences
Online Access:http://dx.doi.org/10.1051/epjconf/20134110021
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spelling doaj-5d0ddb456fff41cdbf16dbc990432fe32021-08-02T06:00:58ZengEDP SciencesEPJ Web of Conferences2100-014X2013-03-01411002110.1051/epjconf/20134110021Terawatt Post compression of high energy fs pulses using ionization: A way to overcome the conventional limitation in energy of few optical cycle pulsesDescamps D.Mével E.Petit S.Fourcade-Dutin C.Dubrouil A.Hort O.Constant E.By using optical-field-ionization of helium we postcompress 50 fs pulses to 8 fs with a pulse energy of 8,7 mJ. Hence few cycle pulses were obtained with TW peak power and a good shot-to-shot stability. http://dx.doi.org/10.1051/epjconf/20134110021
collection DOAJ
language English
format Article
sources DOAJ
author Descamps D.
Mével E.
Petit S.
Fourcade-Dutin C.
Dubrouil A.
Hort O.
Constant E.
spellingShingle Descamps D.
Mével E.
Petit S.
Fourcade-Dutin C.
Dubrouil A.
Hort O.
Constant E.
Terawatt Post compression of high energy fs pulses using ionization: A way to overcome the conventional limitation in energy of few optical cycle pulses
EPJ Web of Conferences
author_facet Descamps D.
Mével E.
Petit S.
Fourcade-Dutin C.
Dubrouil A.
Hort O.
Constant E.
author_sort Descamps D.
title Terawatt Post compression of high energy fs pulses using ionization: A way to overcome the conventional limitation in energy of few optical cycle pulses
title_short Terawatt Post compression of high energy fs pulses using ionization: A way to overcome the conventional limitation in energy of few optical cycle pulses
title_full Terawatt Post compression of high energy fs pulses using ionization: A way to overcome the conventional limitation in energy of few optical cycle pulses
title_fullStr Terawatt Post compression of high energy fs pulses using ionization: A way to overcome the conventional limitation in energy of few optical cycle pulses
title_full_unstemmed Terawatt Post compression of high energy fs pulses using ionization: A way to overcome the conventional limitation in energy of few optical cycle pulses
title_sort terawatt post compression of high energy fs pulses using ionization: a way to overcome the conventional limitation in energy of few optical cycle pulses
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2013-03-01
description By using optical-field-ionization of helium we postcompress 50 fs pulses to 8 fs with a pulse energy of 8,7 mJ. Hence few cycle pulses were obtained with TW peak power and a good shot-to-shot stability.
url http://dx.doi.org/10.1051/epjconf/20134110021
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AT mevele terawattpostcompressionofhighenergyfspulsesusingionizationawaytoovercometheconventionallimitationinenergyoffewopticalcyclepulses
AT petits terawattpostcompressionofhighenergyfspulsesusingionizationawaytoovercometheconventionallimitationinenergyoffewopticalcyclepulses
AT fourcadedutinc terawattpostcompressionofhighenergyfspulsesusingionizationawaytoovercometheconventionallimitationinenergyoffewopticalcyclepulses
AT dubrouila terawattpostcompressionofhighenergyfspulsesusingionizationawaytoovercometheconventionallimitationinenergyoffewopticalcyclepulses
AT horto terawattpostcompressionofhighenergyfspulsesusingionizationawaytoovercometheconventionallimitationinenergyoffewopticalcyclepulses
AT constante terawattpostcompressionofhighenergyfspulsesusingionizationawaytoovercometheconventionallimitationinenergyoffewopticalcyclepulses
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