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ELECTRON MOBILITY IN DENSE HE GAS

A.F. Borghesani

in Ions and electrons in liquid helium

Published in print:
2007
Published Online:
January 2008
ISBN:
9780199213603
eISBN:
9780191707421
Item type:
chapter
Publisher:
Oxford University Press
DOI:
10.1093/acprof:oso/9780199213603.003.0027
Subject:
Physics, Condensed Matter Physics / Materials

Experiments on the mobility of electrons in dense helium gas elucidated how localized electron states develop when the gas density gas is increased. Up to 77 K, the density dependence of the mobility ... More


ELECTRONS IN DENSE HE GAS

A.F. Borghesani

in Ions and electrons in liquid helium

Published in print:
2007
Published Online:
January 2008
ISBN:
9780199213603
eISBN:
9780191707421
Item type:
chapter
Publisher:
Oxford University Press
DOI:
10.1093/acprof:oso/9780199213603.003.0025
Subject:
Physics, Condensed Matter Physics / Materials

This chapter explains why the dynamics and evolution of the formation of electron bubbles has been investigated by looking at how the electron mobility changes as a function of the density of helium ... More


NEGATIVE IONS IN NORMAL LIQUID 3HE FOR T < 1 K

A.F. Borghesani

in Ions and electrons in liquid helium

Published in print:
2007
Published Online:
January 2008
ISBN:
9780199213603
eISBN:
9780191707421
Item type:
chapter
Publisher:
Oxford University Press
DOI:
10.1093/acprof:oso/9780199213603.003.0021
Subject:
Physics, Condensed Matter Physics / Materials

This chapter discusses the studies of the electron bubble mobility in normal liquid 3He. The high temperature measurements are extended into the milliKelvin range down to the superfluid transition at ... More


DYNAMICS OF THE FORMATION OF THE ELECTRON BUBBLE

A.F. Borghesani

in Ions and electrons in liquid helium

Published in print:
2007
Published Online:
January 2008
ISBN:
9780199213603
eISBN:
9780191707421
Item type:
chapter
Publisher:
Oxford University Press
DOI:
10.1093/acprof:oso/9780199213603.003.0026
Subject:
Physics, Condensed Matter Physics / Materials

The phenomenon of self-trapping is well known in helium and in different systems, such as electrons in ammonia, Positronium in dense helium gas, and so on. It is known that localization occurs when ... More


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