Solving strongly coupled quantum field theory using Lightcone Conformal Truncation

Xin, Yuan

03 December 2020

Quantum Field Theory (QFT) is the language that describes a wide spectrum of physics. However, it is notoriously hard at strong coupling regime. We approach this problem in an old Quantum Mechanical method - keep a finite number of states and diagonalize the Hamiltonian as a finite-size matrix. To study a QFT, we take the Hamiltonian to be the Conformal Field Theory as the Ultraviolet fixed point of the theory's Renormalization Group Flow, deformed by a relevant operator. We use a recent framework known as the Lightcone Conformal Truncation (LCT), where we use conformal basis and lightcone quantization. As an application of the method, we study the two dimensional Supersymmetric (SUSY) Gross-Neveu-Yukawa Model. The model is expected to have a critical point in the universality class of tri-critical Ising model, a massive phase and a massless SUSY-breaking phase. We use the LCT to compute the spectrum and the spectral density of the theory at all couplings and map the entire phase diagram.

Physics

Conformal field theory

Hamiltonian truncation

Nonperturbative

Quantum field theory

Motor neurons and motor patterns underlying phonotaxis during flight of the cricket, Teleogryllus oceanicus

Wang, Hsien-Yi Sabrina

January 1988

No description available.

Oceanic field cricket -- Flight

Oceanic field cricket -- Physiology

A Study of Field Training Programs in the Ohio Valley Region

Pope, Andrew L.

30 May 2013

No description available.

Criminology

Law Enforcement

Field Training Officer

Field Training Program

Investigation into Aeroacoustic Rotor Scaling Effects for eVTOL Applications

Walker, Matthew

January 2022

No description available.

Acoustics

aeroacoustics

rotor

eVTOL

acoustics

far-field

near-field

Duality over p-adic Lie extensions of global fields

Lim, Meng

08 1900

<p> In his monograph [Ne], Nekovar studies cohomological invariants of big Galois representations and looks at the variations of Selmer groups attached to intermediate number fields in a commutative p-adic Lie extension. In view of the formulation of the "main conjecture" for noncommutative extensions, it seems natural to extend the theory to a noncommutative p-adic Lie extension. This thesis will serve as a first step in an extension of this theory, namely, we will develop duality theorems over a noncommutative p-adic Lie extension which are extensions of Tate local duality, Poitou-Tate global duality and Grothendieck duality. </p> / Thesis / Doctor of Philosophy (PhD)

lie extension

global field

cohomological

invariant

number field

A STUDY IN FIELD VERIFICATION OF 8-VSB COVERAGE

HENRY, MARK

11 October 2001

No description available.

DTV Field Measurement

8-VSB

DTV Field Verification

Dynamic Contrast Enhanced Magnetic Resonance Imaging at High and Ultra-high Fields

Liang, Jiachao

January 2008

No description available.

Radiology

DCE-MRI

Ultra-high field

High field

Contrast Agent

Quantum field-theory in non-integer dimensions /

Eyink, Gregory Lawrence

January 1988

No description available.

Mathematics

Quantum field theory

A Visual Field Test Based on the Balance between the Two Eyes

Roberts, Krista

09 August 2022

No description available.

Optics

Ophthalmology

visual field

neutral density

glaucoma

binocular visual field

Enhanced Field Emission Studies on Nioboim Surfaces Relevant to High Field Superconducting Radio-Frequency Devices

Wang, Tong

13 November 2002

Enhanced field emission (EFE) presents the main impediment to higher acceleration gradients in superconducting niobium (Nb) radiofrequency cavities for particle accelerators. The strength, number and sources of EFE sites strongly depend on surface preparation and handling. The main objective of this thesis project is to systematically investigate the sources of EFE from Nb, to evaluate the best available surface preparation techniques with respect to resulting field emission, and to establish an optimized process to minimize or eliminate EFE. To achieve these goals, a scanning field emission microscope (SFEM) was designed and built as an extension to an existing commercial scanning electron microscope (SEM). In the SFEM chamber of ultra high vacuum, a sample is moved laterally in a raster pattern under a high voltage anode tip for EFE detection and localization. The sample is then transferred under vacuum to the SEM chamber equipped with an energy-dispersive x-ray spectrometer for individual emitting site characterization. Compared to other systems built for similar purposes, this apparatus has low cost and maintenance, high operational flexibility, considerably bigger scan area, as well as reliable performance. EFE sources from planar Nb have been studied after various surface preparation, including chemical etching and electropolishing, combined with ultrasonic or high-pressure water rinse. Emitters have been identified, analyzed and the preparation process has been examined and improved based on EFE results. As a result, field-emission-free or near field-emission-free surfaces at ~140 MV/m have been consistently achieved with the above techniques. Characterization on the remaining emitters leads to the conclusion that no evidence of intrinsic emitters, i.e., no fundamental electric field limit induced by EFE, has been observed up to ~140 MV/m. Chemically etched and electropolished Nb are compared and no significant difference is observed up to ~140 MV/m. To address concerns on the effect of natural air drying process on EFE, a comparative study was conducted on Nb and the results showed insignificant difference under the experimental conditions. Nb thin films deposited on Cu present a possible alternative to bulk Nb in superconducting cavities. The EFE performance of a preliminary energetically deposited Nb thin film sample are presented. / Ph. D.

niobium

electron field emission

radio-frequency superconductivity

enhanced field emission