The continuum limit in the quenched approximation

C. Bernard; T. Blum; C. DeTar; Steven Gottlieb; Urs M. Heller; J. Hetrick; K. Rummukainen; R. Sugar; D. Toussaint; M. Wingate

doi:10.1016/0920-5632(96)00070-9

The continuum limit in the quenched approximation

C. Bernard, T. Blum, C. DeTar, Steven Gottlieb, Urs M. Heller, J. Hetrick, K. Rummukainen, R. Sugar, D. Toussaint, M. Wingate

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

8 Scopus citations

Abstract

Previous work at 6/g² = 5.7 with quenched staggered quarks is extended with new calculations at 5.85 and 6.15 on lattices up to 32³ × 64. These calculations allow a more detailed study of extrapolation in quark mass, finite volume and lattice spacing than has heretofore been possible. We discuss how closely the quenched spectrum approaches that of the real world.

Original language	English (US)
Pages (from-to)	345-349
Number of pages	5
Journal	Nuclear Physics B - Proceedings Supplements
Volume	47
Issue number	1-3
DOIs	https://doi.org/10.1016/0920-5632(96)00070-9
State	Published - Mar 1996
Externally published	Yes

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics
Nuclear and High Energy Physics

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10.1016/0920-5632(96)00070-9

Cite this

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title = "The continuum limit in the quenched approximation",

abstract = "Previous work at 6/g2 = 5.7 with quenched staggered quarks is extended with new calculations at 5.85 and 6.15 on lattices up to 323 × 64. These calculations allow a more detailed study of extrapolation in quark mass, finite volume and lattice spacing than has heretofore been possible. We discuss how closely the quenched spectrum approaches that of the real world.",

author = "C. Bernard and T. Blum and C. DeTar and Steven Gottlieb and Heller, {Urs M.} and J. Hetrick and K. Rummukainen and R. Sugar and D. Toussaint and M. Wingate",

note = "Funding Information: This work was supported by the U.S. Department of Energy and the National Science Foundation. Calculations were done on Intel Paragons at Indiana University and Sandia National Laboratory, and Cray T3Ds at Pittsburgh Supercom- puter Center and NERSC. Archival storage has been provided at the National Center for Supercomputer Applications. We thank M. Golterman, P. Mackenzie, J. Smit and D. Weingarten for discussions of the a dependence of the approach to the continuum.",

year = "1996",

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doi = "10.1016/0920-5632(96)00070-9",

language = "English (US)",

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T1 - The continuum limit in the quenched approximation

AU - Bernard, C.

AU - Blum, T.

AU - DeTar, C.

AU - Gottlieb, Steven

AU - Heller, Urs M.

AU - Hetrick, J.

AU - Rummukainen, K.

AU - Sugar, R.

AU - Toussaint, D.

AU - Wingate, M.

N1 - Funding Information: This work was supported by the U.S. Department of Energy and the National Science Foundation. Calculations were done on Intel Paragons at Indiana University and Sandia National Laboratory, and Cray T3Ds at Pittsburgh Supercom- puter Center and NERSC. Archival storage has been provided at the National Center for Supercomputer Applications. We thank M. Golterman, P. Mackenzie, J. Smit and D. Weingarten for discussions of the a dependence of the approach to the continuum.

PY - 1996/3

Y1 - 1996/3

N2 - Previous work at 6/g2 = 5.7 with quenched staggered quarks is extended with new calculations at 5.85 and 6.15 on lattices up to 323 × 64. These calculations allow a more detailed study of extrapolation in quark mass, finite volume and lattice spacing than has heretofore been possible. We discuss how closely the quenched spectrum approaches that of the real world.

AB - Previous work at 6/g2 = 5.7 with quenched staggered quarks is extended with new calculations at 5.85 and 6.15 on lattices up to 323 × 64. These calculations allow a more detailed study of extrapolation in quark mass, finite volume and lattice spacing than has heretofore been possible. We discuss how closely the quenched spectrum approaches that of the real world.

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JO - Nuclear Physics B - Proceedings Supplements

JF - Nuclear Physics B - Proceedings Supplements

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The continuum limit in the quenched approximation

Abstract

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