T. Janowski scite author profile

We present results for several light hadronic quantities ($f_\pi$, $f_K$, $B_K$, $m_{ud}$, $m_s$, $t_0^{1/2}$, $w_0$) obtained from simulations of 2+1 flavor domain wall lattice QCD with large physical volumes and nearly-physical pion masses at two lattice spacings. We perform a short, O(3)%, extrapolation in pion mass to the physical values by combining our new data in a simultaneous chiral/continuum `global fit' with a number of other ensembles with heavier pion masses. We use the physical values of $m_\pi$, $m_K$ and $m_\Omega$ to determine the two quark masses and the scale - all other quantities are outputs from our simulations. We obtain results with sub-percent statistical errors and negligible chiral and finite-volume systematics for these light hadronic quantities, including: $f_\pi$ = 130.2(9) MeV; $f_K$ = 155.5(8) MeV; the average up/down quark mass and strange quark mass in the $\bar {\rm MS}$ scheme at 3 GeV, 2.997(49) and 81.64(1.17) MeV respectively; and the neutral kaon mixing parameter, $B_K$, in the RGI scheme, 0.750(15) and the $\bar{\rm MS}$ scheme at 3 GeV, 0.530(11).Comment: 131 pages, 30 figures. Updated to match published versio

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K→ππΔI=3/2decay amplitude in the

Blum

et al. 2015

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Emerging Understanding of theΔI=1/2Rule from Lattice QCD

et al. 2013

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There has been much speculation as to the origin of the ∆I = 1/2 rule (ReA0/ReA2 22.5). We find that the two dominant contributions to the ∆I = 3/2, K → ππ correlation functions have opposite signs leading to a significant cancellation. This partial cancellation occurs in our computation of ReA2 with physical quark masses and kinematics (where we reproduce the experimental value of A2) and also for heavier pions at threshold. For ReA0, although we do not have results at physical kinematics, we do have results for pions at zero-momentum with mπ 420 MeV (ReA0/ReA2 = 9.1(2.1)) and mπ 330 MeV (ReA0/ReA2 = 12.0(1.7)). The contributions which partially cancel in ReA2 are also the largest ones in ReA0, but now they have the same sign and so enhance this amplitude. The emerging explanation of the ∆I = 1/2 rule is a combination of the perturbative running to scales of O(2 GeV), a relative suppression of ReA2 through the cancellation of the two dominant contributions and the corresponding enhancement of ReA0. QCD and EWP penguin operators make only very small contributions at such scales.

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Update on SU(2) gauge theory with N_F = 2 fundamental flavours.

2018

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Abstract. We present a non perturbative study of SU(2) gauge theory with two fundamental Dirac flavours. This theory provides a minimal template which is ideal for a wide class of Standard Model extensions featuring novel strong dynamics, such as a minimal realization of composite Higgs models. We present an update on the status of the meson spectrum and decay constants based on increased statistics on our existing ensembles and the inclusion of new ensembles with lighter pion masses, resulting in a more reliable chiral extrapolation.

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Phase structure of completely asymptotically free SU( Nc ) models with quarks and scalar quarks

et al. 2018

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We determine the phase diagram of completely asymptotically free SUðN c Þ gauge theories featuring N s complex scalars and N f Dirac quarks transforming according to the fundamental representation of the gauge group. The analysis is performed at the maximum known order in perturbation theory. We unveil a very rich dynamics and associated phase structure. Intriguingly, we discover that the completely asymptotically free conditions guarantee that the infrared dynamics displays long-distance conformality, and in a regime when perturbation theory is applicable. We conclude our analysis by determining the quantum corrected potential of the model and summarizing the possible patterns of radiative symmetry breaking. These models are of potential phenomenological interest as either elementary or composite ultraviolet finite extensions of the standard model.

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T. Janowski

Domain wall QCD with physical quark masses

K→ππΔI=3/2decay amplitude in the

Emerging Understanding of theΔI=1/2Rule from Lattice QCD

Update on SU(2) gauge theory with N_F = 2 fundamental flavours.

Phase structure of completely asymptotically free SU( Nc ) models with quarks and scalar quarks

Contact Info

Product

Resources

About

T. Janowski

Domain wall QCD with physical quark masses

K→ππΔI=3/2decay amplitude in the

Emerging Understanding of theΔI=1/2Rule from Lattice QCD

Update on SU(2) gauge theory with NF = 2 fundamental flavours.

Phase structure of completely asymptotically free SU( Nc ) models with quarks and scalar quarks

Contact Info

Product

Resources

About

Update on SU(2) gauge theory with N_F = 2 fundamental flavours.