Sn ion energy distributions of ns- and ps-laser produced plasmas

A Bayerle; M J Deuzeman; S van der Heijden; D Kurilovich; T de Faria Pinto; A Stodolna; S Witte; K S E Eikema; W Ubachs; R Hoekstra; O O Versolato

doi:10.1088/1361-6595/aab533

Sn ion energy distributions of ns- and ps-laser produced plasmas

A Bayerle, M J Deuzeman, S van der Heijden, D Kurilovich, T de Faria Pinto, A Stodolna, S Witte, K S E Eikema, W Ubachs, R Hoekstra, O O Versolato

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

Abstract

Ion energy distributions arising from laser-produced plasmas of Sn are measured over a wide laser parameter space. Planar-solid and liquid-droplet targets are exposed to infrared laser pulses with energy densities between 1 J cm−2 and 4 kJ cm−2 and durations spanning 0.5 ps to 6 ns. The measured ion energy distributions are compared to two self-similar solutions of a hydrodynamic approach assuming isothermal expansion of the plasma plume into vacuum. For planar and droplet targets exposed to ps-long pulses, we find good agreement between the experimental results and the self-similar solution of a semi-infinite simple planar plasma configuration with an exponential density profile. The ion energy distributions resulting from solid Sn exposed to ns-pulses agrees with solutions of a limited-mass model that assumes a Gaussian-shaped initial density profile.

Original language	English
Article number	045001
Journal	Plasma Sources Science and Technology
Volume	27
Issue number	4
DOIs	https://doi.org/10.1088/1361-6595/aab533
Publication status	Published - 4 Apr 2018
Externally published	Yes

Keywords

ion energy
laser-produced plasmas
ns- en ps-laser

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10.1088/1361-6595/aab533Licence: CC BY

Cite this

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title = "Sn ion energy distributions of ns- and ps-laser produced plasmas",

abstract = "Ion energy distributions arising from laser-produced plasmas of Sn are measured over a wide laser parameter space. Planar-solid and liquid-droplet targets are exposed to infrared laser pulses with energy densities between 1 J cm−2 and 4 kJ cm−2 and durations spanning 0.5 ps to 6 ns. The measured ion energy distributions are compared to two self-similar solutions of a hydrodynamic approach assuming isothermal expansion of the plasma plume into vacuum. For planar and droplet targets exposed to ps-long pulses, we find good agreement between the experimental results and the self-similar solution of a semi-infinite simple planar plasma configuration with an exponential density profile. The ion energy distributions resulting from solid Sn exposed to ns-pulses agrees with solutions of a limited-mass model that assumes a Gaussian-shaped initial density profile.",

keywords = "ionenenergie, door laser geproduceerde plasma's, ns- and ps-laser, ion energy, laser-produced plasmas, ns- en ps-laser",

author = "A Bayerle and Deuzeman, {M J} and Heijden, {S van der} and D Kurilovich and Pinto, {T de Faria} and A Stodolna and S Witte and Eikema, {K S E} and W Ubachs and R Hoekstra and Versolato, {O O}",

year = "2018",

month = apr,

day = "4",

doi = "10.1088/1361-6595/aab533",

language = "English",

volume = "27",

journal = "Plasma Sources Science and Technology",

issn = "1361-6595",

publisher = "IOP Publishing Ltd.",

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TY - JOUR

T1 - Sn ion energy distributions of ns- and ps-laser produced plasmas

AU - Bayerle, A

AU - Deuzeman, M J

AU - Heijden, S van der

AU - Kurilovich, D

AU - Pinto, T de Faria

AU - Stodolna, A

AU - Witte, S

AU - Eikema, K S E

AU - Ubachs, W

AU - Hoekstra, R

AU - Versolato, O O

PY - 2018/4/4

Y1 - 2018/4/4

N2 - Ion energy distributions arising from laser-produced plasmas of Sn are measured over a wide laser parameter space. Planar-solid and liquid-droplet targets are exposed to infrared laser pulses with energy densities between 1 J cm−2 and 4 kJ cm−2 and durations spanning 0.5 ps to 6 ns. The measured ion energy distributions are compared to two self-similar solutions of a hydrodynamic approach assuming isothermal expansion of the plasma plume into vacuum. For planar and droplet targets exposed to ps-long pulses, we find good agreement between the experimental results and the self-similar solution of a semi-infinite simple planar plasma configuration with an exponential density profile. The ion energy distributions resulting from solid Sn exposed to ns-pulses agrees with solutions of a limited-mass model that assumes a Gaussian-shaped initial density profile.

AB - Ion energy distributions arising from laser-produced plasmas of Sn are measured over a wide laser parameter space. Planar-solid and liquid-droplet targets are exposed to infrared laser pulses with energy densities between 1 J cm−2 and 4 kJ cm−2 and durations spanning 0.5 ps to 6 ns. The measured ion energy distributions are compared to two self-similar solutions of a hydrodynamic approach assuming isothermal expansion of the plasma plume into vacuum. For planar and droplet targets exposed to ps-long pulses, we find good agreement between the experimental results and the self-similar solution of a semi-infinite simple planar plasma configuration with an exponential density profile. The ion energy distributions resulting from solid Sn exposed to ns-pulses agrees with solutions of a limited-mass model that assumes a Gaussian-shaped initial density profile.

KW - ionenenergie

KW - door laser geproduceerde plasma's

KW - ns- and ps-laser

KW - ion energy

KW - laser-produced plasmas

KW - ns- en ps-laser

U2 - 10.1088/1361-6595/aab533

DO - 10.1088/1361-6595/aab533

M3 - Article

SN - 1361-6595

VL - 27

JO - Plasma Sources Science and Technology

JF - Plasma Sources Science and Technology

IS - 4

M1 - 045001

ER -

Sn ion energy distributions of ns- and ps-laser produced plasmas

Abstract

Keywords

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