# Quarterly Progress Reports

# Los Alamos HEP Theory Quarterly Report FY2016-Q4

The primary areas of activity of the theory group are in physics beyond the Standard Model, cosmology, dark matter, lattice quantum chromodynamics, neutrinos, the fundamentals of quantum field theory and gravity, and particle astrophysics. The questions pursued by this group relate to deep mysteries in our understanding of Nature at the level of the the Standard Model and beyond. The main tools we use are quantum field theory and General Relativity.

## Lattice QCD

The Los Alamos Lattice QCD team and their collaborators are carrying out precision studies investigating signatures of new physics at the TeV scale, elucidating the structure of the nucleon, and understanding QCD at finite temperature. Progress during this quarter on the four projects being pursued is described below.

### Nucleon charges and form-factors

The analysis of data of isovector charges using the 2+1-flavor clover-on-clover lattice QCD formulation was completed and a manuscript for publication was prepared. The four ensembles of clover-on-clover were simulated on the Titan computer at Oakridge under the ALCC program. The clover-on-clover calculation has the advantage of being based on a unitary lattice formulation, and provides an important check on the 2+1+1-flavor clover-on-HISQ calculations. We are continuing the analysis of a second physical mass HISQ ensemble with lattice size ${96}^{3}\times 192$ at 0.06 fm on cluster and GPU computers at Los Alamos and using ERCAP allocations at NERSC. Proceedings of talks given at Lattice 2016 were prepared for publication. The analysis of electric, magnetic and axial form factors using 2-state fits has been carried out and these results were also presented at Lattice 2016 by post-doc Yong-Chull Jang. Manuscripts describing these results are being prepared for publication.

Recent References:

Physical Review D94:5 (2016) 054508

Physical Review D93:11 (2016) 114506

arXiv:1601.01730

Physical Review D92:9 (2015) 094511

Physical Review D89:9 (2014) 094502

Physical Review D85:5 (2012) 054512.

### Matrix elements of novel CP violating operators and nEDM

Calculations of the matrix elements of the quark chromo electric dipole moment operator and mixing with the pseudoscalar operator are ongoing. The formalism for these calculations and new numerical techniques are being developed. Status of results were presented at Lattice 2016 by Bhattacharya. Codes to calculate the disconnected diagrams and the reweighting factor were developed. The paper with the 1-loop calculations of the mixing and renormalization of novel CP violating operators of dimension-5 that contribute to the Neutron Electric Dipole Moment was published in PRD. In this paper Bhattacharya, Cirigliano, Gupta and Yoon calculate the operator basis that allows for off-shell renormalization using external fixed momentum states. The paper describing the one-loop matching between MSbar and a renormalization independent scheme was completed and paper describing these calculations was also published in PRD. A second paper with calculations of the quark electric dipole moment (tensor charges of the up, down and strange quarks within the neutron), their contribution to the neutron electric dipole moment and implications for split SUSY models was published in PRL.

Latest References: Bhattacharya et al.,

arXiv:1601.02264

Physical Review D92:9 (2015) 114026

Physical Review Letters 112:21 (2015) 212002

arXiv:1502.07325

arXiv:1403.2445

arXiv:1212.4918

### Disconnected diagrams and Transverse Momentum Distribution Functions

A manuscript with the results for the Sivers and Boer-Mulders shift, the transversity and the generalized worm-gear shift for two different fermion discretization schemes is being prepared. Bhattacharya, Gupta, Yoon and collaborator Michael Engelhardt at NMSU are continuing production runs for calculating matrix elements to evaluate the Sivers function and other transverse momentum distribution (TMD) functions using computing resources provided by USQCD at JLab. Gupta and Yoon, in collaboration with Gambhir, Orginos and Stathopoulos at William and Mary are developing methods to speed up the calculation of disconnected diagrams and improve the signal.

Latest References:

arXiv:1611.01193

arXiv:1601.05717

### Behavior of QCD at finite temperature

The HotQCD collaboration is continuing to investigate fluctuations of conserved charges (electric charge, strangness, baryon number) around the transition temperature (140–160 MeV) to investigate the behavior of QCD near the possible critical end-point at finite chemical potential that will be probed by the Beam Energy Scan run II.

Latest References:

Physical Review D90 (2014) 094503

Physical Review Letters 113 (2014) 082001

Physical Review D86 (2012) 034509

Physical Review D86 (2012) 094503

Physical Review D85 (2012) 054503

## Dark Matter and LHC Physics

In this quarter Graesser worked on a number of ongoing projects. He and Yue Zhang (Northwestern U.) are investigating the phenomenological implications of scenario of dark matter in which the dark matter is light, i.e., less than a GeV, and the mediator is a pseudo-scalar. That the mediator is a pseudo-scalar leads to a qualitatively different phenomenology than previously discussed in the literature. Graesser and Shashank Shalgar (Los Alamos) are investigating the impact that interactions between dark matter and either photons or neutrinos can have on the dark matter power spectrum and the cosmic microwave background. Graesser is also working on a number of projects using 8 and 13 TeV LHC data to constrain models of TeV scale physics. These projects includes studying models having light stops and models that lead at low-energies to novel signatures of neutrinoless double beta decay. Graesser is also collaborating with Tuhin Roy (TATA Institute, Mumbai, India) on a new method to improve the sensitivity of the LHC to new TeV-scale physics.

Latest References:

arXiv:1606.04549

Physics Letters B749 (2014) 293

arXiv:1311.2028

Physical Review Letters111 (2013) 121802

JHEP 1302(2013) 046

JHEP 1210(2012) 025

Physics Letters B714 (2012) 267

Physics Review D85 (2012) 054512

arXiv:1107.2666

JHEP 1110(2011) 110

## Precision Cosmology Simulations

The "Dark Sky Simulations: Early Data Release" paper by Skillman & Warren et al. (arXiv:1407.2600) is the first published N-body simulation results with over a trillion particles. The the data and analysis software made publicly available at http://darksky.slac.stanford.edu. Analysis of a higher resolution simulation on Titan at Oak Ridge with (10240**3) particles and 1/h Gpc box is underway. The calculation involves one zettaflops integrated and will generate one petabyte of data. It will be the highest resolution cosmological simulation of dark matter, mass function, power spectrum, galaxy halo merger history.