High density collimated beams of relativistic ions produced by petawatt laser pulses in plasmas

Y. Sentoku; T. V. Liseikina; T. Zh Esirkepov; F. Califano; N. M. Naumova; Y. Ueshima; V. A. Vshivkov; Y. Kato; K. Mima; K. Nishihara; F. Pegoraro; S. V. Bulanov

doi:10.1103/PhysRevE.62.7271

High density collimated beams of relativistic ions produced by petawatt laser pulses in plasmas

Y. Sentoku
, T. V. Liseikina
, T. Zh Esirkepov
, F. Califano
, N. M. Naumova
, Y. Ueshima
, V. A. Vshivkov
, Y. Kato
, K. Mima
, K. Nishihara
, F. Pegoraro
, S. V. Bulanov

Research output: Contribution to journal › Article › peer-review

Abstract

Under optimal interaction conditions ions can be accelerated up to relativistic energies by a petawatt laser pulse in both underdense and overdense plasmas. Two-dimensional particle in cell simulations show that the laser pulse drills a channel through an underdense plasma slab due to relativistic self-focusing. Both ions and electrons are accelerated in the head region of the channel. However, ion acceleration is more effective at the end of the slab. Here electrons from the channel expand in vacuum and are followed by the ions dragged by the Coulomb force arising from charge separation. A similar mechanism of ion acceleration occurs when a superintense laser pulse interacts with a thin slab of overdense plasma and the pulse ponderomotive pressure moves all the electrons away from a finite-diameter spot.

Original language	English
Pages (from-to)	7271-7281
Number of pages	11
Journal	Physical Review E
Volume	62
Issue number	5
DOIs	https://doi.org/10.1103/PhysRevE.62.7271
Publication status	Published - 1 Jan 2000
Externally published	Yes

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10.1103/PhysRevE.62.7271

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title = "High density collimated beams of relativistic ions produced by petawatt laser pulses in plasmas",

abstract = "Under optimal interaction conditions ions can be accelerated up to relativistic energies by a petawatt laser pulse in both underdense and overdense plasmas. Two-dimensional particle in cell simulations show that the laser pulse drills a channel through an underdense plasma slab due to relativistic self-focusing. Both ions and electrons are accelerated in the head region of the channel. However, ion acceleration is more effective at the end of the slab. Here electrons from the channel expand in vacuum and are followed by the ions dragged by the Coulomb force arising from charge separation. A similar mechanism of ion acceleration occurs when a superintense laser pulse interacts with a thin slab of overdense plasma and the pulse ponderomotive pressure moves all the electrons away from a finite-diameter spot.",

author = "Y. Sentoku and Liseikina, \{T. V.\} and Esirkepov, \{T. Zh\} and F. Califano and Naumova, \{N. M.\} and Y. Ueshima and Vshivkov, \{V. A.\} and Y. Kato and K. Mima and K. Nishihara and F. Pegoraro and Bulanov, \{S. V.\}",

year = "2000",

month = jan,

day = "1",

doi = "10.1103/PhysRevE.62.7271",

language = "English",

volume = "62",

pages = "7271--7281",

journal = "Physical Review E",

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TY - JOUR

T1 - High density collimated beams of relativistic ions produced by petawatt laser pulses in plasmas

AU - Sentoku, Y.

AU - Liseikina, T. V.

AU - Esirkepov, T. Zh

AU - Califano, F.

AU - Naumova, N. M.

AU - Ueshima, Y.

AU - Vshivkov, V. A.

AU - Kato, Y.

AU - Mima, K.

AU - Nishihara, K.

AU - Pegoraro, F.

AU - Bulanov, S. V.

PY - 2000/1/1

Y1 - 2000/1/1

N2 - Under optimal interaction conditions ions can be accelerated up to relativistic energies by a petawatt laser pulse in both underdense and overdense plasmas. Two-dimensional particle in cell simulations show that the laser pulse drills a channel through an underdense plasma slab due to relativistic self-focusing. Both ions and electrons are accelerated in the head region of the channel. However, ion acceleration is more effective at the end of the slab. Here electrons from the channel expand in vacuum and are followed by the ions dragged by the Coulomb force arising from charge separation. A similar mechanism of ion acceleration occurs when a superintense laser pulse interacts with a thin slab of overdense plasma and the pulse ponderomotive pressure moves all the electrons away from a finite-diameter spot.

AB - Under optimal interaction conditions ions can be accelerated up to relativistic energies by a petawatt laser pulse in both underdense and overdense plasmas. Two-dimensional particle in cell simulations show that the laser pulse drills a channel through an underdense plasma slab due to relativistic self-focusing. Both ions and electrons are accelerated in the head region of the channel. However, ion acceleration is more effective at the end of the slab. Here electrons from the channel expand in vacuum and are followed by the ions dragged by the Coulomb force arising from charge separation. A similar mechanism of ion acceleration occurs when a superintense laser pulse interacts with a thin slab of overdense plasma and the pulse ponderomotive pressure moves all the electrons away from a finite-diameter spot.

U2 - 10.1103/PhysRevE.62.7271

DO - 10.1103/PhysRevE.62.7271

M3 - Article

AN - SCOPUS:18344412902

SN - 2470-0045

VL - 62

SP - 7271

EP - 7281

JO - Physical Review E

JF - Physical Review E

IS - 5

ER -

High density collimated beams of relativistic ions produced by petawatt laser pulses in plasmas

Abstract

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