The Heavy Photon Search Group at SLAC is collaborating with physicists at Jefferson Lab, Fermilab, and UCSC in two experiments aimed at discovering a hidden-sector, heavy photon. Such a particle would have mass in the range 0.02 to 1.0 GeV, couple weakly to electrons, and decay to {html}e<sup>+</sup>e<sup>–</sup>{html}. It would be produced by electron bremstrahlung on a heavy target, and be identified as a narrow {html}e<sup>+</sup>e<sup>–</sup>{html} resonance. Weak couplings of this heavy photon to electrons account for its having not yet been discovered and can give rise to separated vertices in its decay, providing a spectacular signature. Heavy photons have become a hot topic recently because they may explain high energy electrons and positrons in cosmic rays and be intimately linked to dark matter annihilation.
Our primary effort at SLAC is the Heavy Photon Search experiment (HPS). During the past year, we proposed the HPS Experiment to JLab. Its first stage, the HPS Test Run, has been approved and funded. The HPS Collaboration is hard at work completing designs, building electronics, and beginning construction of the experiment, which will be installed March 2012 at JLab. The experiment will use LHC style readout of silicon microstrip detectors for tracking and vertex reconstruction of {html}e<sup>+</sup>e<sup>–</sup>{html} pairs and a PbWO{~}4~ crystal calorimeter to deal with the extremely high trigger rates expected. HPS offers many opportunities for rotation students. Experimental design and simulation studies will continue, tracking pattern recognition and vertexing code is being refined, the data acquisition system for the experiment is being designed and tested, a silicon tracker/vertexer is being built, and the physics analysis is being developed. This experiment is very small by modern standards, but exploits cutting edge detection and readout technologies to address a very fascinating piece of physics. It provides a perfect opportunity for a thesis student, offering all aspects of experimental work, from design to hardware implementation to data analysis. Some specific proposals for Fall 2011 HPS rotation projects are listed below.
Our SLAC group is also involved in the APEX experiment, which has already completed a test run last Summer and presented results of its initial search, excluding a new region of heavy photon parameter space. The experiment makes use of two existing spectrometers in Jlab's experimental Hall A. The experiment hopes to take more data during the 2011-12 JLab cycle. SLAC had responsibility for constructing the target for the experiment, taking shifts, and helping to develop the data analysis. We will continue collaborating on APEX. [John Jaros|mailto:john@slac.stanford.edu].
h2. Fall/Winter 2011 Projects
|| *Project Title* || *Contact Person* || Student ||
| [Silicon Tracker Module and DAQ Development|Project Description - Silicon Tracker Module and DAQ Development] | [Tim Nelson|mailto:tkelson@slac.stanford.edu] |
| [HPS Trigger Simulation |hpsg:HPS trigger simulation] | [Takashi Maruyama|mailto:tvm@slac.stanford.edu] | |
| [Simulating HPS performance in a photon beam |hpsg:Simulating HPS performance in a photon beam] | [Takashi Maruyama|mailto:tvm@slac.stanford.edu] | |
| [hpsg:Magnetic Field Map for Track Reconstruction] | [Matt Graham|mailto:mgraham@slac.stanford.edu] | |
| [hpsg:Tracker Alignment Procedures] | [Matt Graham|mailto:mgraham@slac.stanford.edu] | |
| [hpsg:Optimizing HPS Design] | [Matt Graham|mailto:mgraham@slac.stanford.edu] | |
h2. Spring/Summer 2012 Projects
|| *Project Title* || *Contact Person* || Student ||
| Test Run Occupancy Studies | [Tim Nelson|mailto:tknelson@slac.stanford.edu] | |
| Determine Test Run Tracker Alignment | [Matt Graham|mailto:mgraham@slac.stanford.edu] | |
| Test Run Trigger Studies | [Takashi Maruyama|mailto:tvm@slac.stanford.edu] | |