Frictional cooling: Experimental results

Abstract The classical methods used in beam cooling are hard to be adapted for a beam of short-lived elementary particles. A novel method, the so-called frictional cooling – that is cooling a beam of low-energy charged particles by moderation in matter and acceleration in an electrostatic field – ha...
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Autor*in:	Mühlbauer, M. [verfasserIn] Daniel, H. Hartmann, F.J. Hauser, P. Kottmann, F. Petitjean, C. Schott, W. Taqqu, D. Wojciechowski, P.

Format:	Artikel
Sprache:	Englisch

Erschienen:	1999

Anmerkung:	© Kluwer Academic Publishers 1999

Übergeordnetes Werk:	Enthalten in: Hyperfine interactions - Kluwer Academic Publishers, 1975, 119(1999), 1-4 vom: Juni, Seite 305-310
Übergeordnetes Werk:	volume:119 ; year:1999 ; number:1-4 ; month:06 ; pages:305-310

Links:	Volltext

DOI / URN:	10.1023/A:1012624501134

Katalog-ID:	OLC2076392645

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520			\|a Abstract The classical methods used in beam cooling are hard to be adapted for a beam of short-lived elementary particles. A novel method, the so-called frictional cooling – that is cooling a beam of low-energy charged particles by moderation in matter and acceleration in an electrostatic field – has been shown to be feasible. In our experiments performed in 1994/1995 a beam of short-lived particles was cooled for the first time ever. Utilizing frictional cooling on a beam of slow negative muons we observed increase in phase space density by about one order of magnitude.
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abstract	Abstract The classical methods used in beam cooling are hard to be adapted for a beam of short-lived elementary particles. A novel method, the so-called frictional cooling – that is cooling a beam of low-energy charged particles by moderation in matter and acceleration in an electrostatic field – has been shown to be feasible. In our experiments performed in 1994/1995 a beam of short-lived particles was cooled for the first time ever. Utilizing frictional cooling on a beam of slow negative muons we observed increase in phase space density by about one order of magnitude. © Kluwer Academic Publishers 1999
abstractGer	Abstract The classical methods used in beam cooling are hard to be adapted for a beam of short-lived elementary particles. A novel method, the so-called frictional cooling – that is cooling a beam of low-energy charged particles by moderation in matter and acceleration in an electrostatic field – has been shown to be feasible. In our experiments performed in 1994/1995 a beam of short-lived particles was cooled for the first time ever. Utilizing frictional cooling on a beam of slow negative muons we observed increase in phase space density by about one order of magnitude. © Kluwer Academic Publishers 1999
abstract_unstemmed	Abstract The classical methods used in beam cooling are hard to be adapted for a beam of short-lived elementary particles. A novel method, the so-called frictional cooling – that is cooling a beam of low-energy charged particles by moderation in matter and acceleration in an electrostatic field – has been shown to be feasible. In our experiments performed in 1994/1995 a beam of short-lived particles was cooled for the first time ever. Utilizing frictional cooling on a beam of slow negative muons we observed increase in phase space density by about one order of magnitude. © Kluwer Academic Publishers 1999
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title_short	Frictional cooling: Experimental results
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Frictional cooling: Experimental results

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