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Previously, the group was working on the now completed first phase of NPDGamma at the Los Alamos National Laboratory Neutron Science Center LANSCE. A description of the experiment and the results can be found in ( PRC 1 and references within.
Previously, the group was working on the now completed first phase of NPDGamma at the Los Alamos National Laboratory Neutron Science Center LANSCE. A description of the experiment and the results can be found in ( PRC 1) and references within.
Our current effort is the NPDGamma experiment ( at the SNS), which is being commissioned and is scheduled to begin production running in the Fall of 2011.
Our current effort is the second phase of the NPDGamma experiment ( at the SNS), which is being commissioned and is scheduled to begin production running in the Fall of 2011.
Previously, the group was working on the now completed G0 experiment ( PRL 1, PRL 2), which investigated the strange quark contributions to the electromagnetic form factors of the nucleon.
Contributions of this group to these efforts include significant detector development, spectrometer development, simulations and analysis.
Previously, the group was working on the now completed first phase of NPDGamma at the Los Alamos National Laboratory Neutron Science Center LANSCE. A description of the experiment and the results can be found in ( PRC 1 and references within.
Contributions of this group to these efforts include detector development, simulations and analysis.
A new future effort in preparation is the n3He Moller experiment ( at JLab), which is to take place after the JLab 12 GeV upgrade.
A new future effort in preparation is the n3He n3He experiment, which is to take place after NPDGamma, with installation starting late in 2012.
Our current effort is the QPweak experiment ( at JLab), which is being installed and is scheduled to begin production running in the Fall of 2010.
A new future effort in preparation is the 11 GeV Moller experiment ( at JLab), which is to take place after the JLab 12 GeV upgrade.
The group of people currently working on our efforts at Jlab include six active faculty, three research associates, and four graduate students. Information about these people and their role on our experiments can be obtained via the left hand menu. \\
The group of people currently working on our efforts at the SNS include four active faculty, one research associate, and two graduate students. Information about these people and their role on our experiments can be obtained via the left hand menu. \\
More information about our efforts at JLab can be obtained via the top menu. ||Attach:SubAtomScatt.swf Δ \\
More information about our efforts at the SNS can be obtained via the top menu. ||Attach:SubAtomScatt.swf Δ \\
The group of people currently working on our efforts at Jlab include six active faculty, three research associates, and three graduate students. Information about these people and their role on our experiments can be obtained via the left hand menu. \\
The group of people currently working on our efforts at Jlab include six active faculty, three research associates, and four graduate students. Information about these people and their role on our experiments can be obtained via the left hand menu. \\
Previously, the group was working on the now completed G0 experiment ( PRL 1, PRL 2).
Previously, the group was working on the now completed G0 experiment ( PRL 1, PRL 2), which investigated the strange quark contributions to the electromagnetic form factors of the nucleon.
Contributions of this group to these efforts include significant detector development, spectrometer development, simulations and analysis.
Previously, the group was working on the now completed G0 experiment ( PRL 1, PRL 2
Previously, the group was working on the now completed G0 experiment ( PRL 1, PRL 2).
Previously, the group was working on the now completed G0 experiment:
Previously, the group was working on the now completed G0 experiment ( PRL 1, PRL 2
The prior
Previously, the group was working on the now completed G0 experiment:
Our current effort is the QPweak experiment, which is being installed and is scheduled to begin production running in the Fall of 2010.
Our current effort is the Q^P^_weak_ experiment, which is being installed and is scheduled to begin production running in the Fall of 2010.
Our current effort is the QPweak experiment, which is being installed and is scheduled to begin production running in the Fall of 2010.
The group of people currently working on our efforts at Jlab include six active faculty, three research associates, and three graduate students. Information about these people and their role on our experiments can be obtained by using the left hand menu. \\
The group of people currently working on our efforts at Jlab include six active faculty, three research associates, and three graduate students. Information about these people and their role on our experiments can be obtained via the left hand menu. \\
More information about the ||Attach:SubAtomScatt.swf Δ
Currently we
More information can be found by navigating the top and side menus.
More information about our efforts at JLab can be obtained via the top menu. ||Attach:SubAtomScatt.swf Δ
Our current effort is the Q^P^_weak_ experiment, which is being installed and is scheduled to begin production running in the Fall of 2010.
The group of people currently working on our efforts at Jlab include six active faculty, three research associates, and three graduate students. Information about these people and their role on our experiments can be obtained by using the left hand menu. ||Attach:SubAtomScatt.swf Δ \\
The group of people currently working on our efforts at Jlab include six active faculty, three research associates, and three graduate students. Information about these people and their role on our experiments can be obtained by using the left hand menu.
More information about the ||Attach:SubAtomScatt.swf Δ \\
As listed on the left, the group of people currently working on these efforts include six active faculty, three research associates, and three graduate students. ||Attach:SubAtomScatt.swf Δ \\
The group of people currently working on our efforts at Jlab include six active faculty, three research associates, and three graduate students. Information about these people and their role on our experiments can be obtained by using the left hand menu. ||Attach:SubAtomScatt.swf Δ \\
\\
A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory. As listed on the left, the group of people currently working on these efforts include six active faculty, three research associates, and three graduate students. | Attach:SubAtomScatt.swf Δ |
A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory. As listed on the left, the group of people currently working on these efforts include six active faculty, three research associates, and three graduate students. | Attach:SubAtomScatt.swf Δ |
A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory. | As listed on the left, the group of people currently working on these efforts include six active faculty, three research associates, and three graduate students. | Attach:SubAtomScatt.swf Δ |
A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory. As listed on the left, the group of people currently working on these efforts include six active faculty, three research associates, and three graduate students. | Attach:SubAtomScatt.swf Δ |
A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory. \\ As listed on the left, the group of people currently working on these efforts include six active faculty, three research associates, and three graduate students. | Attach:SubAtomScatt.swf Δ \\ |
A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory. | As listed on the left, the group of people currently working on these efforts include six active faculty, three research associates, and three graduate students. | Attach:SubAtomScatt.swf Δ \\ |
A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory.\\As listed on the left, the group of people currently working on these efforts include six active faculty, three research associates, and three graduate students. | Attach:SubAtomScatt.swf Δ \\ |
A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory. \\ As listed on the left, the group of people currently working on these efforts include six active faculty, three research associates, and three graduate students. | Attach:SubAtomScatt.swf Δ \\ |
A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory. \\ As listed on the left, the group of people currently working on these efforts include six active faculty, three research associates, and three graduate students. | Attach:SubAtomScatt.swf Δ \\ |
A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory.\\As listed on the left, the group of people currently working on these efforts include six active faculty, three research associates, and three graduate students. | Attach:SubAtomScatt.swf Δ \\ |
A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory. As listed on the left, the group of people currently working on these efforts include six active faculty, three research associates, and three graduate students. | Attach:SubAtomScatt.swf Δ \\ |
A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory. \\ As listed on the left, the group of people currently working on these efforts include six active faculty, three research associates, and three graduate students. | Attach:SubAtomScatt.swf Δ \\ |
As listed on the left, the group of people currently working on these efforts include six active faculty, three research associates, and three graduate students. ||Attach:SubAtomScatt.swf Δ \\
A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory. As listed on the left, the group of people currently working on these efforts include six active faculty, three research associates, and three graduate students. | Attach:SubAtomScatt.swf Δ \\ |
As listed on the left, the group of people currently working on these efforts include six active faculty, three research associates, and three graduate students.
As listed on the left, the group of people currently working on these efforts include six active faculty, three research associates, and three graduate students. ||Attach:SubAtomScatt.swf Δ \\
A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory. | Attach:SubAtomScatt.swf Δ |
As listed on the left, the group of people currently working on these efforts include six active faculty, three research associates, and three graduate students.
A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory | Attach:SubAtomScatt.swf Δ.\\ |
A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory. | Attach:SubAtomScatt.swf Δ \\ |
Attach:SubAtomScatt.swf Δ | A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory.\\ |
A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory | Attach:SubAtomScatt.swf Δ.\\ |
Attach:SubAtomScatt.swf Δ | A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory.\\ |
Attach:SubAtomScatt.swf Δ | A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory.\\ |
Welcome
Attach:SubAtomScatt.swf Δ | A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory.\\ |
Attach:SubAtomScatt.swf Δ | A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory.\\ |
Attach:SubAtomScatt.swf Δ | \\A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory.\\ |
Attach:SubAtomScatt.swf Δ | A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory.\\ |
Attach:SubAtomScatt.swf Δ | A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory. \\ |
Attach:SubAtomScatt.swf Δ | \\A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory.\\ |
Attach:SubAtomScatt.swf Δ | A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory. |
\\
Attach:SubAtomScatt.swf Δ | A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory. \\ |
Attach:SubAtomScatt.swf Δ | A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory. |
Attach:SubAtomScatt.swf Δ | A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory. |
Attach:SubAtomScatt.swf Δ | A major focus of the Manitoba subatomic physics group is |
centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory.
Attach:SubAtomScatt.swf Δ | A major focus of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory. |
Attach:SubAtomScatt.swf Δ |
A major focus of the Manitoba subatomic physics group is
Attach:SubAtomScatt.swf Δ | A major focus of the Manitoba subatomic physics group is |
centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory.
centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory.
A major effort of the Manitoba subatomic physics group is
A major focus of the Manitoba subatomic physics group is
As listed on the left, the group of people working on this effort include six active faculty, three research associates, and three graduate students.
Currently we
As listed on the left, the group of people currently working on these efforts include six active faculty, three research associates, and three graduate students.
More information can be found by navigating the top and side menus.
mgericke@physics.umantioba.ca
and we'll go from there.
Please also contact me if you would like to add a new simulation package, part, discussion topic, or section to the list on the right, as I decided to remove general access to edit the menu, in order to reduce the level of potential caos.
Some of the figures presented within the standard wiki window do not have good resolution or are to small to see the details. Therefore:
To view figures in high resolution do: Right Click->View Image (In Firefox)
Or something similar for other browsers.
If you are unfamiliar with editing a PmWiki site, please start by reading and playing around with the sand box trial area. To do so, follow the previous link, or the one provided in the menu side bar. From there, click on the "Edit" button in the top menu bar and enter the standard qweak password to open the edit window.
and, in particular, the members of the experiment's simulation group.
The purpose of this site is to document the simulation code for the experiment in a collaborative effort. At this point there two main parts: Documentation for 1) the Geant4 version of the overall experiment simulation and 2) for the Geant3 version of the overall experiment.
Various parts/pages of this site are password protected with different passwords. The entire site is protected by the site admin password. If you would like to or think you should be able to edit a particular page on this site, but don't have the password, please email me at:
As listed on the left, the group of people working on this effort include six active faculty, three research associates, and three graduate students.
Welcome to the Qweak Simulation Wiki!
This site is intended for use by the members of the Qweak collaboration and, in particular, the members of the experiment's simulation group.
Welcome
A major effort of the Manitoba subatomic physics group is centered around probing the Standard Model for new physics, using parity violating electron scattering at Jefferson National Laboratory.
and, in particular, the members of the experiment's simulation group.
To view figures in high resolution do: Right Click->View Image
To view figures in high resolution do: Right Click->View Image (In Firefox)
Or something similar for other browsers.
With regard to figures, graphs, and pictures:
To view figures in high resolution do: Right Click->View Image
Some of the figures presented within the standard wiki window do not have good resolution or are to small to see the details. Therefore:
To view figures in high resolution do: Right Click->View Image
With regard to figures, graphs, and pictures:
To view figures in high resolution do: Right Click->View Image
on the "Edit" button in the top menu bar, to open the edit window.
on the "Edit" button in the top menu bar and enter the standard qweak password to open the edit window.
the list on the right, as I decided to remove general access to edit the menu, in order to reduce the level of potential caos.
the list on the right, as I decided to remove general access to edit the menu, in order to reduce the level of potential caos.
If you are unfamiliar with editing a PmWiki site, please start by reading and playing around with the sand box trial area. To do so, follow the previous link, or the one provided in the menu side bar. From there, click on the "Edit" button in the top menu bar, to open the edit window.
(:toc:)
the list, as I decided to remove general access to edit the menu, in order to reduce the level of potential caos.
the list on the right, as I decided to remove general access to edit the menu, in order to reduce the level of potential caos.
and we'll go from there.
and we'll go from there.
Please also contact me if you would like to add a new simulation package, part, discussion topic, or section to the list, as I decided to remove general access to edit the menu, in order to reduce the level of potential caos.
Various parts/pages of this site are password protected with different passwords. The entire site is protected by the site admin password. If you would like to or think you should be able to edit a particular page on this site, but don't have the password, please email me at: >>red<< mgericke@physics.umantioba.ca >><< and we'll go from there.
Various parts/pages of this site are password protected with different passwords. The entire site is protected by the site admin password. If you would like to or think you should be able to edit a particular page on this site, but don't have the password, please email me at:
mgericke@physics.umantioba.ca
and we'll go from there.
Various parts/pages of this site are password protected with different passwords. The entire site is protected by the site admin password. If you would like to or think you should be able to edit a particular page on this site, but don't have the password, please email me at: mgericke@physics.umantioba.ca.
Various parts/pages of this site are password protected with different passwords. The entire site is protected by the site admin password. If you would like to or think you should be able to edit a particular page on this site, but don't have the password, please email me at: >>red<< mgericke@physics.umantioba.ca >><< and we'll go from there.
Various parts/pages of this site are password protected with different passwords. The entire site is protected by the site admin password. If you would like to or think you should be able to edit a particular page on this site, but don't have the password, please .
Various parts/pages of this site are password protected with different passwords. The entire site is protected by the site admin password. If you would like to or think you should be able to edit a particular page on this site, but don't have the password, please email me at: mgericke@physics.umantioba.ca.
This site is intended for use by the Qweak collaboration
This site is intended for use by the members of the Qweak collaboration and, in particular, the members of the experiment's simulation group.
The purpose of this site is to document the simulation code for the experiment in a collaborative effort. At this point there two main parts: Documentation for 1) the Geant4 version of the overall experiment simulation and 2) for the Geant3 version of the overall experiment.
Various parts/pages of this site are password protected with different passwords. The entire site is protected by the site admin password. If you would like to or think you should be able to edit a particular page on this site, but don't have the password, please .
Welcome to PmWiki!
A local copy of PmWiki's documentation has been installed along with the software, and is available via the documentation index.
To continue setting up PmWiki, see initial setup tasks.
The basic editing page describes how to create pages in PmWiki. You can practice editing in the wiki sandbox.
More information about PmWiki is available from http://www.pmwiki.org .
Welcome to the Qweak Simulation Wiki!
This site is intended for use by the Qweak collaboration
Introduction
The QWeak simulation package QweakSimG4 is a collection of C++ classes that can be compiled and run for the purpose of physics process simulation in the experiment. The code aims to eventually include all objects and properties found in the current design of the QWeak experiment, as well as most physics processes that are expected to emerge during the experiment. The implementation of these objects and properties is at various stages of development, the detail of which is indicated in the extent of the list of contents. The code is based on the GEANT4{\footnote{{\tt http://wwwasd.web.cern.ch/wwwasd/geant4/geant4.html}}} simulation code~\cite{pp:GEANT4} and the ROOT\footnote{ Copyright \copyright 1995-2004 Rene Brun \& Fons Rademakers. All rights reserved. {\tt http://root.cern.ch}} analysis package and requires these to compile.
This is a test!
\subsection{This is a test!}
This is a test!
(:include PmWiki.FAQ:)
(:include Main.Hello:)
(:include PmWiki.FAQ:)
(:include Main.Hello:)
\section{Introduction}
Introduction
properties found in the current design of the QWeak experiment, as well as most physics processes that are expected to emerge during the experiment. The implementation of these objects and properties is at various stages of development, the detail of which is indicated in the extent of the list of contents. The code is based on the GEANT4\footnote{{\tt http://wwwasd.web.cern.ch/wwwasd/geant4/geant4.html}} simulation
properties found in the current design of the QWeak experiment, as well as most physics processes that are expected to emerge during the experiment. The implementation of these objects and properties is at various stages of development, the detail of which is indicated in the extent of the list of contents. The code is based on the GEANT4{\footnote{{\tt http://wwwasd.web.cern.ch/wwwasd/geant4/geant4.html}}} simulation
$$\phi=\frac{lt}{\sqrt{n}}$$
This is a test!
\subsection{This is a test!}
$$\phi=\frac{lt}{\sqrt{n}}$$
Introduction
\section{Introduction}
Introduction
The QWeak simulation package QweakSimG4 is a collection of C++ classes that can be compiled and run for the purpose of physics process simulation in the experiment. The code aims to eventually include all objects and properties found in the current design of the QWeak experiment, as well as most physics processes that are expected to emerge during the experiment. The implementation of these objects and properties is at various stages of development, the detail of which is indicated in the extent of the list of contents. The code is based on the GEANT4\footnote{{\tt http://wwwasd.web.cern.ch/wwwasd/geant4/geant4.html}} simulation code~\cite{pp:GEANT4} and the ROOT\footnote{ Copyright \copyright 1995-2004 Rene Brun \& Fons Rademakers. All rights reserved. {\tt http://root.cern.ch}} analysis package and requires these to compile.
The basic editing page describes how to create pages in PmWiki. You can practice editing in the wiki sandbox.
The basic editing page describes how to create pages in PmWiki. You can practice editing in the wiki sandbox.
This is a test!
This is a test!
A local copy of PmWiki's documentation has been installed along with the software, and is available via the documentation index.
A local copy of PmWiki's documentation has been installed along with the software, and is available via the documentation index.
This is a test!
Welcome to PmWiki!
Welcome to PmWiki!
(:toc:)