Research

I’m a theoretical particle physicist – my research focuses on understanding how theoretical models defined at high-energies manifest in experimentally accessible observables. I spend my time (1) developing computational frameworks, methodologies, and algorithms to enable more precise and accurate comparisons between theory and experiment, and (2) investigating, estimating, and constraining novel phenomenology related experimental signatures of theoretical predictions in extensions of the Standard Model.

More specifically, I’m interested in model building, machine learning, optimal transport, hadronization, rare lepton decays, effective field theory, proton decay, solutions to the hierarchy problem, tumbling gauge theories, grand unified theories, gauge/gravity duality, cosmology, string phenomenology, functional programming, and more…

Publications

iHOMER

HEPTAPOD: Orchestrating High-Energy-Physics Workflows Towards Autonomous Agency

iHOMER

Iterative HOMER with uncertainties

tau_init_ALPs

Long-lived Axion-Like Particles from Tau Decays

posthocflavor

Post-hoc reweighting of hadron production in the Lund string model

LFV_ULDM

Direct Detection of Ultralight Dark Matter via Charged Lepton Flavor Violation

HOMER_gluons

Characterizing the hadronization of parton showers using the HOMER method

fusion_scalars

Searching for exotic scalars at fusion reactors

RSA

Rejection Sampling with Autodifferentiation - Case study: Fitting a Hadronization Model

HOMER

Describing hadronization via Histories and Observables for Monte Carlo Event Reweighting

muon_BNV

Muon-induced baryon number violation

mu2e_EFT

Effective theory tower for μ → e conversion

MAGIC

Towards a data-driven model of hadronization using normalizing flows

insitu_kin

Reweighting Monte Carlo Predictions and Automated Fragmentation Variations in Pythia 8

mu5e

New physics in multi-electron muon decays

gaussian_flow

The Earth Mover's Distance as a Measure of CP Violation

On the implications of positive W mass shift

hadronization

Modeling hadronization using machine learning

Dissertation

dissertation

Rare Lepton Decays and Differentiable Hadronization Models
From Signatures of New Physics to Data-driven Event Generation

Presentations

fdlslg

A Flavorful and Dark Cascade for Low-scale Leptogenesis

mu5e

Heavy and Light New Physics in Rare Muon Decays