Remarks on strange-quark simulations with Wilson fermions

We report recent efforts by CLS to generate an ensemble with physical lightand strange-quark masses in a lattice volume of 192 × 963 at β = 3:55 corresponding to a lattice spacing of 0:064 fm. This ensemble is being generated as part of the CLS 2+1 flavor effort with improved Wilson fermions. Our simulations currently cover 5 lattice spacings ranging from 0:039 fm to 0:086 fm at various pion masses along chiral trajectories with either the sum of the quark masses kept fixed, or with the strange-quark mass at the physical value. The current status of simulations is briefly reviewed, including a short discussion of measured autocorrelation times and of the main features of the simulations. We then proceed to discuss the thermalization strategy employed for the generation of the physical quark-mass ensemble and present first results for some simple observables. Challenges encountered in the simulation are highlighted.

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Light and strange quark masses for $N_f = 2 + 1$ simulations with Wilson fermions

10.22323/1.334.0220 ◽

2019 ◽

Cited By ~ 1

Author(s):

Jonna Koponen ◽

Mattia Bruno ◽

Isabel Campos ◽

Carlos Pena ◽

David Preti ◽

...

Keyword(s):

Strange Quark ◽

Quark Masses ◽

Wilson Fermions

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FINITE TEMPERATURE PHASE TRANSITION IN QCD WITH STRANGE QUARK: STUDY WITH WILSON FERMIONS ON THE LATTICE

Color Confinement and Hadrons ◽

10.1142/9789814447140_0014 ◽

1996 ◽

Author(s):

K. KANAYA

Keyword(s):

Phase Transition ◽

Finite Temperature ◽

Strange Quark ◽

Temperature Phase ◽

Temperature Phase Transition ◽

Wilson Fermions

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Strange Quark Matter as Dark Matter

Nonlinear Phenomena in Complex Systems ◽

10.33581/1561-4085-2019-22-4-311-317 ◽

2019 ◽

Vol 22 (4) ◽

pp. 311-317

Author(s):

Hidezumi Terazawa

Keyword(s):

Dark Matter ◽

Quark Matter ◽

Strange Quark ◽

Strange Quark Matter ◽

Quark Stars

New forms of matter such as super-hypernuclei (strange quark matter) and superhypernuclear stars (strange quark stars) as candidates for dark matter are discussed in some detail, based on the so-called "Bodmer–Terazawa–Witten hypothesis" assuming that they are stable absolutely or quasi-stable (decaying only weakly).

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Formation scenarios of strange quark stars

SN 1987A, Quark Phase Transition in Compact Objects and Multimessenger Astronomy. Proceedings of The International Conference. ◽

10.26119/sao.2020.1.52363 ◽

2018 ◽

Author(s):

Grzegorz Wiktorowicz ◽

A. Drago ◽

G. Pagliara ◽

S. Popov

Keyword(s):

Strange Quark ◽

Quark Stars

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Standard Model prediction of the Bc lifetime

Journal of High Energy Physics ◽

10.1007/jhep07(2021)130 ◽

2021 ◽

Vol 2021 (7) ◽

Author(s):

Jason Aebischer ◽

Benjamín Grinstein

Keyword(s):

Standard Model ◽

Model Prediction ◽

Strange Quark ◽

Standard Model Prediction ◽

New Physics ◽

Operator Product ◽

Special Focus ◽

Third Order ◽

Clear Cut ◽

The Standard Model

Abstract Applying an operator product expansion approach we update the Standard Model prediction of the Bc lifetime from over 20 years ago. The non-perturbative velocity expansion is carried out up to third order in the relative velocity of the heavy quarks. The scheme dependence is studied using three different mass schemes for the $$ \overline{b} $$ b ¯ and c quarks, resulting in three different values consistent with each other and with experiment. Special focus has been laid on renormalon cancellation in the computation. Uncertainties resulting from scale dependence, neglecting the strange quark mass, non-perturbative matrix elements and parametric uncertainties are discussed in detail. The resulting uncertainties are still rather large compared to the experimental ones, and therefore do not allow for clear-cut conclusions concerning New Physics effects in the Bc decay.

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