Data Analysis - Cherenkov Calibration
Cherenkov Calibration
Under Construction
The Cherenkov Detector
The Cherenkov Detector uses the phenomenon of Cherenkov Radiation to detect when particles traveling faster than the speed of light of the detector chamber medium (Heavy Gas, Noble Gas, Aerogel) pass through the detector chamber. The primary purpose of the Cherenkov Detector is particle identification, particularly for distinguishing between electrons and pions in our experiments. Since the dipole magnets in front of the HMS and SHMS detectors can "select" the energy of the particles that are bent into the detector, we know the velocities of the electrons and pions that enter the detector. We can then choose the medium in the Cherenkov Detector such that Cherenkov radiation is emitted for the light and fast electrons, but not for the heavy and slow moving pions with the same energy. PMTs are then used to detect the resulting Cherenkov Radiation, taking the original photon and converting it into an electric pulse. An ADC is then used to convert the analog signal into a digital signal that reflects the ampltude of the original electric pulse.
While this is only a very basic picture, I hope it makes clear the principles behind how a Cherenkov Detectors works and the utility it provides to particle physics experiments.
Purpose
The goal of performing a Cherenkov Detector Calibration is to quantify the Cherenkov Detector's response to the passage of various particles (electrons, pions, etc.).
the PMTs of a Cherenkov detector find the Single Photoelectron (SPE) peak.
