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Investigation of ultraintense femtosecond laser–plasma interactions through ω and 2ω imaging and spectroscopy

Published online by Cambridge University Press:  30 July 2001

M. GALIMBERTI
Affiliation:
Intense Laser Irradiation Laboratory, Istituto di Fisica Atomica e Molecolare, CNR, Area della ricerca, via Moruzzi, 1-56124, Pisa, Italy Dipartimento di Fisica, sezione INFM, Università degli studi di Pisa, via Bonarotti 2, 56100 Pisa, Italy Istituto Nazionale di Fisica Nucleare, Sezione di Pisa
A. GIULIETTI
Affiliation:
Intense Laser Irradiation Laboratory, Istituto di Fisica Atomica e Molecolare, CNR, Area della ricerca, via Moruzzi, 1-56124, Pisa, Italy
D. GIULIETTI
Affiliation:
Intense Laser Irradiation Laboratory, Istituto di Fisica Atomica e Molecolare, CNR, Area della ricerca, via Moruzzi, 1-56124, Pisa, Italy Dipartimento di Fisica, sezione INFM, Università degli studi di Pisa, via Bonarotti 2, 56100 Pisa, Italy Istituto Nazionale di Fisica Nucleare, Sezione di Pisa
L.A. GIZZI
Affiliation:
Intense Laser Irradiation Laboratory, Istituto di Fisica Atomica e Molecolare, CNR, Area della ricerca, via Moruzzi, 1-56124, Pisa, Italy
PH. BALCOU
Affiliation:
Laboratoire d'Optique Appliquée, ENSTA–Ecole Polytechnique, CNRS Unité Mixte de Recherches 7639, F-91761 Palaiseau, France
A. ROUSSE
Affiliation:
Laboratoire d'Optique Appliquée, ENSTA–Ecole Polytechnique, CNRS Unité Mixte de Recherches 7639, F-91761 Palaiseau, France
J.PH. ROUSSEAU
Affiliation:
Laboratoire d'Optique Appliquée, ENSTA–Ecole Polytechnique, CNRS Unité Mixte de Recherches 7639, F-91761 Palaiseau, France

Abstract

A laser–plasma interaction experiment was performed in order to match effective conditions for wake-field electron acceleration. A 30-fs pulse was made to interact with a preformed plasma generated via the exploding foil technique from a 1-μm-thick plastic film. The irradiance of the femtosecond pulse in the plasma was 1020 Wcm−2. The interaction conditions were investigated via imaging and spectroscopy at the fundamental and the second harmonic of the laser frequency, both forward and backward. Our data clearly show that conditions suitable for electron acceleration are achieved close to the propagation axis and can be easily reproduced from shot to shot. In contrast, significant growth of instabilities occurs at the boundaries of the interaction region. These observations are consistent with a preliminary evidence of forward acceleration of high-energy electrons. Optical, X-ray, and γ-ray data obtained for different positions of the foil target with respect to the laser focal plane further support this promising scenario.

Type
Research Article
Copyright
© 2001 Cambridge University Press

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