Difference between revisions of "2018 NSF Proposal"

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=Project Summary=
 
=Project Summary=
We propose to continue  
+
We propose to continue a program of using electromagnetic and electroweak probes to
 +
study hadronic matter on a fundamental level at the Thomas Jefferson
 +
National Accelerator Facility. As part of this program, each principal investigator will be taking a
 +
sabbatical to lead the flagship measurements of this program during this funding period.  We are requesting support from the NSF to complete these measurements that our graduate students will be using for the degrees in Physics.
 +
 
  
 
==Intellectual Merit==
 
==Intellectual Merit==
 +
 +
The intermediate energy nuclear physics group at Idaho State University (ISU) has an established fundamental physics program, based at Jefferson Lab, to enhance our understanding of nucleons and nuclei. 
 +
The CoPIs in this proposal are all co-spokespersons on experiments to perform measurements on the underlying symmetry and structure of the quark and gluon components of the nucleon and the characteristics of the skin or surface of a nucleus.  Dr~Dustin McNulty is continuing his work using parity violation to precisely measure the neutron skin of lead and calcium to test nuclear model predictions of the difference between the radii of protons and neutrons in a heavy nucleus. Dr.~Tony Forest is continuing a measurement of the down quark fractional polarization in the nucleon to test predictions of pQCD via JLab experiment PR12-06-109. 
 +
Two graduate students will perform measurements during this funding period that will form the foundation of their Ph.D. thesis.
 +
 
==Broader Impacts==
 
==Broader Impacts==
  

Revision as of 02:17, 5 November 2018

NSF

RFP Due date Dec. 11

https://www.nsf.gov/pubs/2018/nsf18564/nsf18564.htm


Project Summary

We propose to continue a program of using electromagnetic and electroweak probes to study hadronic matter on a fundamental level at the Thomas Jefferson National Accelerator Facility. As part of this program, each principal investigator will be taking a sabbatical to lead the flagship measurements of this program during this funding period. We are requesting support from the NSF to complete these measurements that our graduate students will be using for the degrees in Physics.


Intellectual Merit

The intermediate energy nuclear physics group at Idaho State University (ISU) has an established fundamental physics program, based at Jefferson Lab, to enhance our understanding of nucleons and nuclei. The CoPIs in this proposal are all co-spokespersons on experiments to perform measurements on the underlying symmetry and structure of the quark and gluon components of the nucleon and the characteristics of the skin or surface of a nucleus. Dr~Dustin McNulty is continuing his work using parity violation to precisely measure the neutron skin of lead and calcium to test nuclear model predictions of the difference between the radii of protons and neutrons in a heavy nucleus. Dr.~Tony Forest is continuing a measurement of the down quark fractional polarization in the nucleon to test predictions of pQCD via JLab experiment PR12-06-109. Two graduate students will perform measurements during this funding period that will form the foundation of their Ph.D. thesis.

Broader Impacts

Project Description

Introduction

CLAS Polarized Structure Function

PolTarg 2018.pngDeltaDoverD 2018.png

The pQcd prediction is shown as a solid filled circle while the open circle represents the results from ref ~\cite{ISgur1999}, ~\cite{Roberts2013}. The red dash-dot line is a dyson-swinger euation calculation from reference ~\cite{Cloet2005}. The blue dashed line is an early parameterization of the world data from ~\cite{Leader1998}. The blue line and blue dash-dot curve are parametrization fits to the world data from reference ~\cite{Avakian2007} with and without the pQCD constraint when non zero angular momentum states are included. The solid red and dashed red curves are a more recent parameterization of the world data set from reference ~\cite{JAM15} without and with the pQCD prediction respectively.


pQcdPrid G. Farrar and D.R. jackson, Phys. Rev. Lett. 35 (1977) 1416

Isgur1999 N. Isgur, Phys.Rev. D89 (1999) 034013

Roberts2013 C. Roberts et. al., Phys. Lett. B727 (2013) 249

Leader1998 E. Leader, et. al., Int. J. Mod. Phys. A13 (1998) pg 5573

Cloet2005 I. Cloet et. al, Phys. Lett. B621 (2005) pg 246

Avakian2007 H. Avakian, et. al., Phys. Rev. Lett. 99 (2007) pg 082001

JAM15 P. Jimeniez, et. al., Phys Rev. D89 (2014) 034025, Phys. Lett. B738 (2014) pg 263

Projects Table

Budget Justification Table

NSF