Los Alamos National Laboratory

Los Alamos National Laboratory

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Theoretical Physics Quarterly Progress Reports

Investigating the field of high energy physics through experiments that strengthen our fundamental understanding of matter, energy, space, and time.

Los Alamos HEP Theory Quarterly Report FY2019-Q3

Daniele Alves, Tanmoy Bhattacharya, Michael L. Graesser, Rajan Gupta

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. There is also a growing effort in quantum computing and quantum algorithms.

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, Novel CP violating operator's contribution to nEDM, elucidating the structure of the nucleon, and neutrino-nucleon interactions. Progress during this quarter on these projects is described below. The team is also actively working on Quantum Information and Computing under the DOE call "Quantum Information Science Enabled Discovery For High Energy Physics".

Nucleon charges and form-factors

The analysis of isovector electric and magnetic form factors from the 2+1+1-flavor clover-on-HISQ calculations was completed and results published submitted for publication. The final analysis of and manuscript on axial vector form factors on these ensembles was started. Analysis of 2+1-flavor clover-on-clover lattice QCD calculations is in final stages and manuscripts describing the results are under preparation. Bhattacharya prepared and presented a plenary talk on "nucleon matrix elements" at Lattice 2019 and post-doc Sungwoo Park presented results on clover-on-clover calculations. Collaborator Yong-Chull presented results on isovector electric and magnetic form factors from the 2+1+1-flavor clover-on-HISQ calculations. Gupta prepared and presented a plenary review of axial and EM form factors at the Workshop on Lepton Interactions with Nucleans and Nuclei in Marciana Marina (Isola d'Elba), June 23-28, 2019.

Relevant References:
Electric and Magnetic Form Factors arXiv:1906.07217
FLAG Review arXiv:1902.08191
Physical Review D98 (2018) 094512 arXiv:1806.10604
Physical Review D98 (2018) 091501 arXiv:1808.07597
Physical Review D98 (2018) 034503 arXiv:1806.09006
Physical Review D96 (2017) 114503 arXiv:1705.06834
Physical Review D95:5 (2017) 074508
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 (cEDM) and its mixing with the pseudoscalar operator, and of the Theta and Weinberg terms are on going. Preliminary results using a variance reduction method developed by us show a factor of ten reduction in errors. Investigations of gradient flow method to deal with the divergent renormalization and mixing problem of the cEDM and Weinberg operators are continuing. The status of our results were presented by Boram Yoon at Lattice 2019.

Relevant References:
arXiv:1812.06233
arXiv:1712.08557
arXiv:1701.04132
arXiv:1612.08438
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

Contributions from Disconnected diagrams

The matrix elements of flavor diagonal operators are needed for the analysis of a number of interesting qualities such as the nucleon electric dipole moment, the quark contribution to the nucleon spin, the nucleon sigma term and the strangeness content of the proton, and the interaction of dark matter with nucleons. These matrix elements also get contributions from disconnected diagrams, that are computationally challenging to compute with high precision. This quarter, Bhattacharya, Gupta, Park and Yoon continued their analysis of the matrix elements of the scalar operator and their renormalization. These matrix elements are relevant for the sigma terms and dark matter interaction with nucleons.

Relevant References:
Physical Review D98 (2018) 094512 arXiv:1806.10604
Physical Review D98 (2018) 091501 arXiv:1808.07597
arXiv:1611.01193

Transverse Momentum Distribution Functions

New simulations, in collaboration with the Regensburg group, are being done.

Relevant References:
Physical Review D96 (2017) 094508 arXiv:1706.03406
arXiv:1611.01193
arXiv:1601.05717

Dark Matter and LHC Physics

Graesser and UNM graduate student Jacek Osinski are finishing a manuscript on the impact that non-trivial cosmologies in the early history of the Universe may have on scenarios for topological dark matter. He is investigating the constraints magnetars may place on axion-like particles. He is also exploring hidden sector monopole models for dark matter and their direct detection and astrophysical constraints. This work is in collaboration with Ian Shoemaker.

Relevant References:
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

Michael Graesser: Neutrinoless double beta decay

Graesser continues his research into the neutrinoless double beta decay process nn-> pp ee, extending previous work to next-to-leading order in the chiral expansion. This work with his collaborators is will be posted at the end of July.

Relevant References:
arXiv:1907.11254
Journal of High Energy Physics12 (2018) 097 arXiv:1806.02780
Physical Review Letters 120:20 (2018) 202001 arXiv:1802.10097
Journal of High Energy Physics12 (2017) 82 arXiv:1708.09390
Journal of High Energy Physics (2017)99
Physics Letters B769 (2017) 460

Daniel S. M. Alves

During the past quarter, Daniele Alves has continued to work on two projects: (1) extension of the neutrino sector to include sterile neutrinos interacting with matter via light mediators; exploration of these models to address short-baseline neutrino anomalies. (2) Extension of entanglement renormalization methods to continuous effective field theories; exploration of numerical implementations via wavelet transform techniques.

Relevant References:
Journal of High Energy Physics 07 (2018) 92 arXiv:1710.03764