Rishabh Thakkar scite author profile

Rishabh Thakkar

4Publications

6Citation Statements Received

14Citation Statements Given

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Indian Institute of Science Bangalore

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Pion screening mass at finite chemical potential

Thakkar

Hegde

2023

J. High Energ. Phys.

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We present a method to compute the responses of meson screening masses to the chemical potential by Taylor expanding the correlator using lattice QCD simulation. We start by comparing the free theory lattice results with the analytical expression. Then, using symmetry arguments, we obtain an expression for the correlator in a series of the chemical potential at finite temperature. Using this, we obtain the lowest order correction to the screening mass at a finite chemical potential for temperatures around 2.5 GeV. Our lattice analysis is limited to isoscalar chemical potential for the pseudoscalar channel. The calculations were performed using (2+1)-flavors of the Highly Improved Staggered Quark (HISQ/tree) action, with the ratio of the strange quark mass to the light quark mass ms/mℓ = 20 corresponding to pion masses of 160 MeV.

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Meson screening mass at finite chemical potential

Thakkar¹,

Hegde²

2022

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Knowledge of the screening masses at finite chemical potential can provide insight into the nature of the QCD phase diagram. However, lattice studies at finite chemical potential suffer from the well-known issue of the sign problem, which has made the calculation of observables such as screening correlators and screening masses at finite chemical potential quite challenging. One way to proceed is by expanding the observable in a Taylor series in the chemical potential and hence calculating the finite-density corrections to the observable. In this talk, we will use this approach to calculate the screening mass of the pseudoscalar meson at finite temperatures and chemical potential by expanding the screening correlator in a Taylor series in the chemical potential. We will present our results for the second derivative of the screening mass w.r.t. the chemical potential. Our calculation was done on 64 3 × 8 lattices generated using the (2+1) HISQ/tree action.

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What Should be the Extent of Liver Resection for pT1b & pT2 Gall Bladder Cancers?

Thakkar¹

2018

ARGH

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486 Clinical composite endpoint classification of REVIVE II corresponds to all-cause mortality risk

Teerlink¹,

Delgado-Herrera²,

Thakkar³

et al. 2007

European Journal of Heart Failure Supplements

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Rishabh Thakkar

Pion screening mass at finite chemical potential

Meson screening mass at finite chemical potential

What Should be the Extent of Liver Resection for pT1b & pT2 Gall Bladder Cancers?

486 Clinical composite endpoint classification of REVIVE II corresponds to all-cause mortality risk

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