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NRQCD and static systems - a general variational approach

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Abstract

We present initial results from Monte Carlo simulations of NRQCD-light, static-light, and NRQCD-NRQCD mesons, using a variational technique (MOST), as part of our ongoing calculation of the f{sub B} decay constant. The basis states for the variational calculation are quark-antiquark operators separated by all possible relative distances not equivalent under the cubic group (for example, for a 20{sup 3} lattice there are 286 operators). The efficacy of the method is demonstrated by the good plateaus obtained for the ground state and the clean extraction of the wave functions of the ground and first radially excited state. ((orig.)).
Authors:
Draper, T; [1]  McNeile, C; [1]  Nenkov, C [1] 
  1. Kentucky Univ., Lexington, KY (United States). Dept. of Physics and Astronomy
Publication Date:
Apr 01, 1995
DOI:
https://doi.org/10.1016/0920-5632(95)00240-A
Product Type:
Journal Article
Report Number:
CONF-9409269-
Reference Number:
SCA: 662230; 662350; PA: AIX-26:064565; EDB-95:132680; SN: 95001458553
Resource Relation:
Journal Name: Nuclear Physics B, Proceedings Supplements; Journal Volume: 42; Conference: Lattice `94, Bielefeld (Germany), 25 Sep - 1 Oct 1994; Other Information: PBD: Apr 1995
Subject:
66 PHYSICS; B MESONS; WEAK PARTICLE DECAY; LATTICE FIELD THEORY; VARIATIONAL METHODS; QUANTUM CHROMODYNAMICS; ANNIHILATION OPERATORS; BOUND STATE; COMPUTERIZED SIMULATION; COUPLING CONSTANTS; CREATION OPERATORS; CUBIC LATTICES; EFFECTIVE MASS; EFFICIENCY; GROUND STATES; INTERACTION RANGE; MONTE CARLO METHOD; PARTICLE STRUCTURE; QUARK-ANTIQUARK INTERACTIONS; QUARKS; S STATES; STEADY-STATE CONDITIONS; VIBRATIONAL STATES; WAVE FUNCTIONS
OSTI ID:
101275
Country of Origin:
Netherlands
Language:
English
Other Identifying Numbers:
Journal ID: NPBSE7; ISSN 0920-5632; TRN: NL95FF540064565
Submitting Site:
NLN
Size:
pp. 325-327
Announcement Date:
Oct 05, 1995

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Citation Formats

Draper, T, McNeile, C, and Nenkov, C. NRQCD and static systems - a general variational approach. Netherlands: N. p., 1995. Web. doi:10.1016/0920-5632(95)00240-A.
Draper, T, McNeile, C, & Nenkov, C. NRQCD and static systems - a general variational approach. Netherlands. https://doi.org/10.1016/0920-5632(95)00240-A
Draper, T, McNeile, C, and Nenkov, C. 1995. "NRQCD and static systems - a general variational approach." Netherlands. https://doi.org/10.1016/0920-5632(95)00240-A.
@misc{etde_101275,
title = {NRQCD and static systems - a general variational approach}
 author = {Draper, T, McNeile, C, and Nenkov, C}
 abstractNote = {We present initial results from Monte Carlo simulations of NRQCD-light, static-light, and NRQCD-NRQCD mesons, using a variational technique (MOST), as part of our ongoing calculation of the f{sub B} decay constant. The basis states for the variational calculation are quark-antiquark operators separated by all possible relative distances not equivalent under the cubic group (for example, for a 20{sup 3} lattice there are 286 operators). The efficacy of the method is demonstrated by the good plateaus obtained for the ground state and the clean extraction of the wave functions of the ground and first radially excited state. ((orig.)).}
 doi = {10.1016/0920-5632(95)00240-A}
 journal = []
 volume = {42}
 journal type = {AC}
 place = {Netherlands}
 year = {1995}
 month = {Apr}
 }