Estimates of diffusion due to long-range beam-beam collisions

Weak-strong tracking simulations for the Large Hadron Collider have shown that long-range beam-beam collisions give rise to a well-defined diffusive aperture beyond which particles are lost quickly. In order to derive analytical estimates of this stability boundary, we use leading order perturbation...
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Autor*in:	Y. Papaphilippou [verfasserIn] F. Zimmermann [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2002

Übergeordnetes Werk:	In: Physical Review Special Topics. Accelerators and Beams - American Physical Society, 2003, 5(2002), 7, p 074001
Übergeordnetes Werk:	volume:5 ; year:2002 ; number:7, p 074001

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DOI / URN:	10.1103/PhysRevSTAB.5.074001

Katalog-ID:	DOAJ011275820

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520			\|a Weak-strong tracking simulations for the Large Hadron Collider have shown that long-range beam-beam collisions give rise to a well-defined diffusive aperture beyond which particles are lost quickly. In order to derive analytical estimates of this stability boundary, we use leading order perturbation theory and the Chirikov resonance overlap criterion applied to a simplified model with a 2-dimensional transverse phase space. In addition, a Fokker-Plank–type diffusion coefficient is calculated through the nonlinear action kicks imparted by the long-range beam-beam force. The analytical results are compared with the tracking data.
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author	Y. Papaphilippou
spellingShingle	Y. Papaphilippou misc QC770-798 misc Nuclear and particle physics. Atomic energy. Radioactivity Estimates of diffusion due to long-range beam-beam collisions
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topic_title	QC770-798 Estimates of diffusion due to long-range beam-beam collisions
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title	Estimates of diffusion due to long-range beam-beam collisions
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title_full	Estimates of diffusion due to long-range beam-beam collisions
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title_sort	estimates of diffusion due to long-range beam-beam collisions
callnumber	QC770-798
title_auth	Estimates of diffusion due to long-range beam-beam collisions
abstract	Weak-strong tracking simulations for the Large Hadron Collider have shown that long-range beam-beam collisions give rise to a well-defined diffusive aperture beyond which particles are lost quickly. In order to derive analytical estimates of this stability boundary, we use leading order perturbation theory and the Chirikov resonance overlap criterion applied to a simplified model with a 2-dimensional transverse phase space. In addition, a Fokker-Plank–type diffusion coefficient is calculated through the nonlinear action kicks imparted by the long-range beam-beam force. The analytical results are compared with the tracking data.
abstractGer	Weak-strong tracking simulations for the Large Hadron Collider have shown that long-range beam-beam collisions give rise to a well-defined diffusive aperture beyond which particles are lost quickly. In order to derive analytical estimates of this stability boundary, we use leading order perturbation theory and the Chirikov resonance overlap criterion applied to a simplified model with a 2-dimensional transverse phase space. In addition, a Fokker-Plank–type diffusion coefficient is calculated through the nonlinear action kicks imparted by the long-range beam-beam force. The analytical results are compared with the tracking data.
abstract_unstemmed	Weak-strong tracking simulations for the Large Hadron Collider have shown that long-range beam-beam collisions give rise to a well-defined diffusive aperture beyond which particles are lost quickly. In order to derive analytical estimates of this stability boundary, we use leading order perturbation theory and the Chirikov resonance overlap criterion applied to a simplified model with a 2-dimensional transverse phase space. In addition, a Fokker-Plank–type diffusion coefficient is calculated through the nonlinear action kicks imparted by the long-range beam-beam force. The analytical results are compared with the tracking data.
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