3:30–5:00 pm ERC 161
Title: EPIC: Extended-Path Intensity Correlation
Abstract: I will introduce a conceptually new astronomical technique---extended-path intensity correlation (EPIC)---and discuss its scientific applications. EPIC is a variant of intensity interferometry wherein an optical-path modification creates a path extension in the two-photon interference amplitude. This alteration generates interference fringes for widely separated sources, allowing maximum source separations parametrically larger than the angular resolution. Augmented with advances in single-photon detectors and spectroscopic gratings, EPIC would enable ground-based astrometry at microarcsecond-level precision in a field of view as large as several arcseconds. EPIC has the potential to revolutionize astrophysical and cosmological observations requiring high-precision differential astrometry on sources of high surface brightness. I will lay out the theory, technical requirements, and science case for EPIC. Promising applications include dark matter substructure studies using astrometric microlensing of quasar images; cosmic distance ladder calibration; binary-orbit characterization; exoplanet detection; Galactic acceleration measurements; all potentially at unprecedented relative astrometric precision.
Zoom: https://uchicago.zoom.us/j/96426832251?pwd=sWlgab9U46NofRA0VMaC7Y1sLA99Te.1
