Development of a Rydberg Atom-Based Apparatus for Tracking Charged Particles

Saeed Pegahan; Todd D Averett; Eugeniy Mikhalov; Irina B Novikova; Nicolas C DeStefano; Shukui Zhang; Alexander Camsonne; Seth Aubin; Gunn Park

Development of a Rydberg Atom-Based Apparatus for Tracking Charged Particles

POSTER

Abstract

Rydberg atoms, with their high polarizability, are ideal candidates for detecting weak electric fields from charged particles. We have built a prototype apparatus to track an electron beam emitted from a 20 KeV thermionic electron gun using Rydberg Electromagnetically Induced Transparency (EIT) signal. The principle of the operation is to use the Stark shift in Rydberg atoms to detect the electric field of an electron beam passing through an atomic vapor. In the long term, we plan to implement our detection scheme with a high-energy electron beamline at Jefferson laboratory to detect relativistic electron beams.

Presenters

Seth Aubin

William and Mary

Authors

Saeed Pegahan

William & Mary
Todd D Averett

William & Mary
Eugeniy Mikhalov

The College of William and Mary, William and Mary, William & Mary
Irina B Novikova

William & Mary
Nicolas C DeStefano

William & Mary
Shukui Zhang

Thomas Jefferson National Accelerator Facility, Jefferson Lab
Alexander Camsonne

Jefferson Lab
Seth Aubin

William and Mary
Gunn Park

Jefferson Lab