Beam Backgrounds

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It is very important to study the impact that backgrounds due to beam running conditions will have to the detector and any measurement. This was a hard lesson learned from past experiments (i.e. transition from HERA to HERA-II). Simulations have begun to investigate these issues as the interaction region and machine parameters are being designed. In this way, experiments can be proactive in ensuring that the machine design will not be adverse to physics in terms of background load. Two major sources of background that need to be studies are backgrounds due to protons in the beam interacting with residual gas in the beam pipe (beam-gas) and photons arising from synchrotron radiation due to the electron beam.

Beam-gas Backgrounds

Presented below is the current status of the beam-gas studies and includes some useful code developed, as well as tips to continue these studies into the future. The basic workflow of the simulations studies can be summarized in the following steps: Background event generation → tracking through IR magnets and interaction with material in the IR → normalizing background rates by considering running conditions → compare to expected rates of physics measurements and see what areas of the detector will be impacted the most from the background. The steps described are detailed in individual sections below.

Background Event Generation

The first question one may ask is what is the dominant species of nuclei present in the residual beam gas. The vacuum experts at RHIC were consulted. The vacuum condition existing currently at RHIC are a good starting place for these studies. It was stated that roughly 90% of the gas is H2, with heavier gases making up the remaining content. Thus the current studies focus on p+H2 collisions. The Monte Carlo package DPMJet is used to generate these events. The steering file used to generate the events used in the simulation can be found at /direct/eic+u/rmpetti/workarea/MCgenerators/dpmjet3-32BIT/pH.inp. The file format for the output of DPMJet for hadronic collisions is a bit different from that for DIS type events. Thus an afterburner macro has been written to massage the output so that it can be imported directly into EicRoot. This macro only keeps final state particles, so all ancestry information is lost (this is not needed for this current study anyway). Also the information regarding the impact parameter of the collision, number of participant nucleons, etc., will also not be propagated through to EicRoot. This information is also not needed for the background rates studies. The transformation macro can be found at /direct/eic+u/rmpetti/workarea/MCgenerators/dpmjet3-32BIT/pA_background/hijingFaker.C. The output of this macro can be put directly into EicRoot as detailed in the next section.

One of the pursuits of the study is to investigate where along the beam path collisions can occur and still cause a significant number of particles from the collision to hit the detector. Thus it is necessary to generate events so that the vertex position of the background events occur all along the beam path trajectory. The displaced vertex is applied to the events with the hijingFaker.C macro referenced above.

EicRoot Simulation

The next step in the simulation workflow is tracking the background events through the interaction region magnets.