Difference between revisions of "The George Washington University."
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* Prof. Bill Briscoe, 15% of research time on KLF, 35% on JEF/GlueX, 30% on CLAS, 10% on MUSE. | * Prof. Bill Briscoe, 15% of research time on KLF, 35% on JEF/GlueX, 30% on CLAS, 10% on MUSE. | ||
* Prof. Axel Schmidt, 15% of research time on KLF, 20% of research time on GlueX, 35% on CLAS, and 30% on Hall C. | * Prof. Axel Schmidt, 15% of research time on KLF, 20% of research time on GlueX, 35% on CLAS, and 30% on Hall C. | ||
− | * Prof. Igor Strakovsky, | + | * Prof. Igor Strakovsky, 50% of research time on KLF, 20% on GlueX, 20% on CLAS, and 10% on PWAs and SAID DB support. |
=== PostDocs === | === PostDocs === |
Revision as of 18:54, 21 August 2023
This document is the service statement for The George Washington University for 2023. Click here to return to the Service Statements page.
Manpower
Faculty
- Prof. Bill Briscoe, 15% of research time on KLF, 35% on JEF/GlueX, 30% on CLAS, 10% on MUSE.
- Prof. Axel Schmidt, 15% of research time on KLF, 20% of research time on GlueX, 35% on CLAS, and 30% on Hall C.
- Prof. Igor Strakovsky, 50% of research time on KLF, 20% on GlueX, 20% on CLAS, and 10% on PWAs and SAID DB support.
PostDocs
- Dr. XXX 100% of research time on KLF: Implementing KLF in Monte Carlo, Tuning Monte Carlo Generators, Developing Reconstruction Tools, Designing Calibration Procedures.
Graduate Students
- YYY ....
Responsibilities
- Igor Strakovsky involves in...
- William Briscoe involves in...
- Axel Schmidt involves in...
Physics Interests
- Formation of \Sigma* and \Lambda* hyperons with K-long beam interacting with cryo LH2 and LD2 targets.
- Exploring reactions with final state K\Xi reaction for a search of \Xi* hyperons.
- Search for exited \Omega* hyperons in a KK\Omega* final states.
- The possiblity studies for \beta decay of K-long with the Flux Monitor of KLF.
Disclosure of Other Research Activities
Profs. Briscoe, Schmidt, and Strakovsky also work on the GlueX, CLAS, and SRC Collaborations studying baryon and meson spectroscopy and short-range correlations. However, because the production mechanisms and decay channels are different, there does not seem to be a conflict of interest with the ongoing work in the KLF Collaboration.