sPHENIX tracking discussion

["Osborn, Joseph" <josborn1 AT bnl.gov>]

Hi Tony,

 

Nice abstract, just one minor comment.

 

The MVTX and TPC are not able to resolve the time between beam crossings, and the beam crossing is therefore determined from the track matching of both detectors to the INTT detector.

 

I’m guessing that the intent of this sentence was to point out that the INTT is needed for bunch crossing discrimination, and thus, is important for vertexing – but it took me a few reads to identify that. Maybe it could be more explicitly stated in some way, although I’m having a hard time coming up with an explicit suggestion. What about “The MVTX and TPC are not able to resolve the time between beam crossings, and therefore the vertexing is improved by track matching to the INTT which can identify individual beam crossings.”

 

___________________________

Joe Osborn, Ph.D

Physics Department

Brookhaven National Laboratory

josborn1 AT bnl.gov

 

 

From: sPHENIX-tracking-l <sphenix-tracking-l-bounces AT lists.bnl.gov> on behalf of Anthony Frawley via sPHENIX-tracking-l <sphenix-tracking-l AT lists.bnl.gov>
Date: Thursday, April 20, 2023 at 4:16 PM
To: sphenix-tracking-l AT lists.bnl.gov <sphenix-tracking-l AT lists.bnl.gov>
Subject: [Sphenix-tracking-l] Draft abstract on track vertex determination in sPHENIX

Title: Track vertex determination in the sPHENIX detector

 

Abstract:

The open heavy flavor program of the sPHENIX experiment at RHIC requires precise determination of the location of individual tracks in the region around the interaction vertex. Three layers of MAPS based pixels (the MVTX) surrounding the beam line are designed to provide a precision of about 10 μm for higher momentum tracks. The tracking system also contains two layers of silicon strip detectors (the INTT) for pattern recognition, and a time-projection chamber (TPC) for momentum measurement. The MVTX and TPC are not able to resolve the time between beam crossings, and the beam crossing is therefore determined from the track matching of both detectors to the INTT detector. In addition to measuring the track momentum, the physics program requires determining the event vertex, finding the displacement of individual tracks from the event vertex, and locating and reconstructing decays of neutral particles that occur before the radius of the silicon pixel detectors. This poster describes the vertex determination process. The sPHENIX detector is taking data for the first time during the 2023 RHIC run, and the status of the vertex determination at the time of the conference will also be discussed.