FSU Fox's Lab Wiki - User contributions [en]

FSU Fox's Lab Wiki

2022-10-05T19:20:37Z

Gwm17: /* DAQ systems */

= Introduction =

*This is the wiki for all details about FSU [[John D Fox]]' Lab for nuclear physics.
*The original manual can be found in [[:File:FoxManual20200415.pdf]].
*This wiki is OPEN TO PUBLIC. Any confidential material should put in [http://elog.physics.fsu.edu elog].
*For [https://www.lsu.edu/physics/research/nuclear-physics.php Louisiana State University] users, please see [https://fsunuc.physics.fsu.edu/elog/202204_SPS_Blocker/2 this elog] for entering the [[Fox's Lab Network]].
*New account may like to see the wiki syntax in [[Wiki_Edit_Cheat_Sheet | here]].
= Accelerator Operation Procedures =
* [[Radiation Safety ]]

= Hardware =
{|style="width: 100%;"
|● [[Tandem Accelerator]] || ● [[LINAC]]
|-
|● [[SF6 Gas Handling System]] || ● [[Vacuum Systems]]
|-
|● [[Water Cooling System]] || ● [[He refrigerator]]
|-
|● [[Computers Network]] || ● [[Hardware/Cable Changes for Switching Target Rooms]]
|-
|● [[Ion Sources]]: This includes the [[Ion Sources#Sputter Source|Sputter Source]] and [[Ion Sources#RF Source|RF Source]] || ● [[Target Lab]]
|-
|● [[RESOLUT]]: In-flight radioactive beam facility
|-
|● [[Triton Beam Project]]: [[Triton Injector#Triton Injector|Triton Injector]]
|}

== Detector stations ==

{|style="width: 100%;"
|● [[ANASEN]] || ● [[CATRiNA]]
|-
|● [[Clarion2]] || ● [[ENCORE]]
|-
|● [[Gamma Station]] || ● [[RESONEUT]]
|-
|● [[Split-Pole Spectrograph]]
|-
|● [[Penning Trap]]
|}

== DAQ systems==
{|style="width: 100%;"
|● [[Pixie16 digitizer]] || ● [[CAEN digitizer]] and [[Specter]]
|-
|● [[Mesytec]] || ● [[NSCL DAQ]] / [[NSCL SpecTcl]]
|}

= Software & Resources =

{|style="width: 100%;"
|◆[[Online Resources]]: Web server, Elog, Grafana, Wiki, InfluxDB || ◆[[Data Server]]
|-
|◆[https://fsunuc.physics.fsu.edu/git/explore/repos Git repository] by Gitea || ◆[[Github repositories]]
|-
|◆[[SSH tunneling]] || ◆[[VNC viewer]]
|-
|◆[[Slack Channel]] || ◆[[gnuscope]]
|-
|◆[[SolidWorks]] || ◆[[Online Analysis]]
|-
| ◆[[Raspberry Pi Camera]] || ◆[[Python Iseg HV controller]]
|-
|◆[https://fsunuc.physics.fsu.edu/research/publication_list/ List of Publications]
|}

= Layout of the Laboratory =
{|
|[[File:Lab Model.png|450px|frameless|none]] || [[File:JohnDFoxLayout.png|550px|frameless|none]]
|}


= External Collaborations =

* [[LSU Collaboration]]
* [[ORNL Collaboration]]
* [[TRIUMF Collaboration]]
* [[FRIB FDSi e21062]]
* [[FRIB SOLARIS Collaboration]]

= Past Experiments =

[[List of Past Experiments]]

= Others =

* [[Help Call List for Evenings, Weekends, Holidays]]

* [[Wiki Edit Cheat Sheet]]

* [[Guide for using this wiki]]

* [https://www.qr-code-generator.com/ QR code generator]

= Contacts =

{|
| for IT and DAQ ||: Ryan Tang mailto:rtang@fsu.edu
|-
| for vacuum ||: Powell Barber mailto:pbarber@fsu.edu
|-
| for accelerator ||: Lagy Baby mailto:lbaby@fsu.edu : Ingo Wiedenhoever mailto:iwiedenhoever@fsu.edu
|}

FSU Fox's Lab Wiki

2022-10-05T19:18:24Z

Gwm17: /* Detector stations */

= Introduction =

*This is the wiki for all details about FSU [[John D Fox]]' Lab for nuclear physics.
*The original manual can be found in [[:File:FoxManual20200415.pdf]].
*This wiki is OPEN TO PUBLIC. Any confidential material should put in [http://elog.physics.fsu.edu elog].
*For [https://www.lsu.edu/physics/research/nuclear-physics.php Louisiana State University] users, please see [https://fsunuc.physics.fsu.edu/elog/202204_SPS_Blocker/2 this elog] for entering the [[Fox's Lab Network]].
*New account may like to see the wiki syntax in [[Wiki_Edit_Cheat_Sheet | here]].
= Accelerator Operation Procedures =
* [[Radiation Safety ]]

= Hardware =
{|style="width: 100%;"
|● [[Tandem Accelerator]] || ● [[LINAC]]
|-
|● [[SF6 Gas Handling System]] || ● [[Vacuum Systems]]
|-
|● [[Water Cooling System]] || ● [[He refrigerator]]
|-
|● [[Computers Network]] || ● [[Hardware/Cable Changes for Switching Target Rooms]]
|-
|● [[Ion Sources]]: This includes the [[Ion Sources#Sputter Source|Sputter Source]] and [[Ion Sources#RF Source|RF Source]] || ● [[Target Lab]]
|-
|● [[RESOLUT]]: In-flight radioactive beam facility
|-
|● [[Triton Beam Project]]: [[Triton Injector#Triton Injector|Triton Injector]]
|}

== Detector stations ==

{|style="width: 100%;"
|● [[ANASEN]] || ● [[CATRiNA]]
|-
|● [[Clarion2]] || ● [[ENCORE]]
|-
|● [[Gamma Station]] || ● [[RESONEUT]]
|-
|● [[Split-Pole Spectrograph]]
|-
|● [[Penning Trap]]
|}

== DAQ systems==
{|style="width: 100%;"
|● [[Pixie16 digitizer]] || ● [[CAEN digitizer]] and [[Navigator]]
|-
|● [[Mesytec]] || ● [[NSCL DAQ]] / [[NSCL SpecTcl]]
|}

= Software & Resources =

{|style="width: 100%;"
|◆[[Online Resources]]: Web server, Elog, Grafana, Wiki, InfluxDB || ◆[[Data Server]]
|-
|◆[https://fsunuc.physics.fsu.edu/git/explore/repos Git repository] by Gitea || ◆[[Github repositories]]
|-
|◆[[SSH tunneling]] || ◆[[VNC viewer]]
|-
|◆[[Slack Channel]] || ◆[[gnuscope]]
|-
|◆[[SolidWorks]] || ◆[[Online Analysis]]
|-
| ◆[[Raspberry Pi Camera]] || ◆[[Python Iseg HV controller]]
|-
|◆[https://fsunuc.physics.fsu.edu/research/publication_list/ List of Publications]
|}

= Layout of the Laboratory =
{|
|[[File:Lab Model.png|450px|frameless|none]] || [[File:JohnDFoxLayout.png|550px|frameless|none]]
|}


= External Collaborations =

* [[LSU Collaboration]]
* [[ORNL Collaboration]]
* [[TRIUMF Collaboration]]
* [[FRIB FDSi e21062]]
* [[FRIB SOLARIS Collaboration]]

= Past Experiments =

[[List of Past Experiments]]

= Others =

* [[Help Call List for Evenings, Weekends, Holidays]]

* [[Wiki Edit Cheat Sheet]]

* [[Guide for using this wiki]]

* [https://www.qr-code-generator.com/ QR code generator]

= Contacts =

{|
| for IT and DAQ ||: Ryan Tang mailto:rtang@fsu.edu
|-
| for vacuum ||: Powell Barber mailto:pbarber@fsu.edu
|-
| for accelerator ||: Lagy Baby mailto:lbaby@fsu.edu : Ingo Wiedenhoever mailto:iwiedenhoever@fsu.edu
|}

Split-Pole Spectrograph

2022-10-05T19:15:07Z

Gwm17: /* Repositories */

The Split-Pole Spectrograph consists of a reaction chamber, a split-pole magnetic spectrograph, ionization chamber, and a plastic scintinatior.

The magnet can be rotated from 0 to 55 degrees in the lab. The magnetic field has an upper limit of 14.5 kG.

== Focal plane detector ==
The focal plane detector consists of an ion chamber with a set of delay lines to detect the position of a particle along the focal plane and a plastic scintillator to detect the energy of the incoming particle. Using the energy loss of the particle through the ion chamber with the energy deposited in the scintillator, particles of different charge and mass can be identified.

There are two position sensitive delay lines in the focal plane detector. By reconstructing the particle trajectory using the position information of both delay lines, the resolution can be enhanced by correcting for the kinematic shift of the reaction.

== SABRE ==

[[File:SABER installing particle shield.png|thumb|right|Installing particle shield on SABER (photo taken on May 5, 2022)]]

The '''S'''ilicon '''A'''rray for '''B'''ranching '''R'''atio '''E'''xperiments

SABRE is a silicon array designed around branching ratio experiments with the SPS. SABRE sits at backwards angles from the target, and covers roughly 30% of 4pi. SABRE has both thick and thin dead-layer detectors, with the thin dead-layer detectors capable of reaching ~200 keV thresholds for protons and deuterons.

https://www.sciencedirect.com/science/article/pii/S0168900221002837

== SPS Experiment Guide ==
[[Media:SPS_Experiment_Guide.pdf]]

== Repositories ==
https://github.com/sesps

= Contact =
* Jeff Blackmon mailto:blackmon@lsu.edu
* Ingo
* who should be contacted?

Split-Pole Spectrograph

2022-10-05T19:14:45Z

Gwm17:

The Split-Pole Spectrograph consists of a reaction chamber, a split-pole magnetic spectrograph, ionization chamber, and a plastic scintinatior.

The magnet can be rotated from 0 to 55 degrees in the lab. The magnetic field has an upper limit of 14.5 kG.

== Focal plane detector ==
The focal plane detector consists of an ion chamber with a set of delay lines to detect the position of a particle along the focal plane and a plastic scintillator to detect the energy of the incoming particle. Using the energy loss of the particle through the ion chamber with the energy deposited in the scintillator, particles of different charge and mass can be identified.

There are two position sensitive delay lines in the focal plane detector. By reconstructing the particle trajectory using the position information of both delay lines, the resolution can be enhanced by correcting for the kinematic shift of the reaction.

== SABRE ==

[[File:SABER installing particle shield.png|thumb|right|Installing particle shield on SABER (photo taken on May 5, 2022)]]

The '''S'''ilicon '''A'''rray for '''B'''ranching '''R'''atio '''E'''xperiments

SABRE is a silicon array designed around branching ratio experiments with the SPS. SABRE sits at backwards angles from the target, and covers roughly 30% of 4pi. SABRE has both thick and thin dead-layer detectors, with the thin dead-layer detectors capable of reaching ~200 keV thresholds for protons and deuterons.

https://www.sciencedirect.com/science/article/pii/S0168900221002837

== SPS Experiment Guide ==
[[Media:SPS_Experiment_Guide.pdf]]

== Repositories ==

= Contact =
* Jeff Blackmon mailto:blackmon@lsu.edu
* Ingo
* who should be contacted?

Split-Pole Spectrograph

2022-10-05T19:13:12Z

Gwm17:

The Split-Pole Spectrograph consists of a reaction chamber, a split-pole magnetic spectrograph, ionization chamber, and a plastic scintinatior.

The magnet can be rotated from 0 to 55 degrees in the lab. The magnetic field has an upper limit of 14.5 kG.

== Focal plane detector ==
The focal plane detector consists of an ion chamber with a set of delay lines to detect the position of a particle along the focal plane and a plastic scintillator to detect the energy of the incoming particle. Using the energy loss of the particle through the ion chamber with the energy deposited in the scintillator, particles of different charge and mass can be identified.

There are two position sensitive delay lines in the focal plane detector. By reconstructing the particle trajectory using the position information of both delay lines, the resolution can be enhanced by correcting for the kinematic shift of the reaction.

== SABRE ==

[[File:SABER installing particle shield.png|thumb|right|Installing particle shield on SABER (photo taken on May 5, 2022)]]

The '''S'''ilicon '''A'''rray for '''B'''ranching '''R'''atio '''E'''xperiments

SABRE is a silicon array designed around branching ratio experiments with the SPS. SABRE sits at backwards angles from the target, and covers roughly 30% of 4pi. SABRE has both thick and thin dead-layer detectors, with the thin dead-layer detectors capable of reaching ~200 keV thresholds for protons and deuterons.

https://www.sciencedirect.com/science/article/pii/S0168900221002837

== SPS Experiment Guide ==
[[Media:SPS_Experiment_Guide.pdf]]

= Contact =
* Jeff Blackmon mailto:blackmon@lsu.edu
* Ingo
* who should be contacted?

Split-Pole Spectrograph

2022-10-05T19:07:50Z

Gwm17:

The Split-Pole Spectrograph consists of a reaction chamber, a dipole magnet, ionization chamber, and a plastic scintinatior.

The dipole magnet can be rotated from 0 to 55 degrees in the lab. The magnetic field has an upper limit of 14.5 kG.

== Focal plane detector ==
The focal plane detector consists of an ion chamber with a set of delay lines to detect the position of a particle along the focal plane and a plastic scintillator to detect the energy of the incoming particle. Using the energy loss of the particle through the ion chamber with the energy deposited in the scintillator, particles of different charge and mass can be identified.

There are two position sensitive delay lines in the focal plane detector. By reconstructing the particle trajectory using the position information of both delay lines, the resolution can be enhanced by correcting for the kinematic shift of the reaction.

== SABRE ==

[[File:SABER installing particle shield.png|thumb|right|Installing particle shield on SABER (photo taken on May 5, 2022)]]

The '''S'''ilicon '''A'''rray for '''B'''ranching '''R'''atio '''E'''xperiments

https://www.sciencedirect.com/science/article/pii/S0168900221002837

== SPS Experiment Guide ==
[[Media:SPS_Experiment_Guide.pdf]]

= Contact =
* Jeff Blackmon mailto:blackmon@lsu.edu
* Ingo
* who should be contacted?

Split-Pole Spectrograph

2022-10-05T19:04:26Z

Gwm17:

The Split-Pole Spectrograph consists of a reaction chamber, a dipole magnet, ionization chamber, and a plastic scintinatior.

The dipole magnet can be rotated from .... The maximum field can be reached is 2.0 T?

== Focal plane detector ==
The focal plane detector consists of an ion chamber with a set of delay lines to detect the position of a particle along the focal plane and a plastic scintillator to detect the energy of the incoming particle. Using the energy loss of the particle through the ion chamber with the energy deposited in the scintillator, particles of different charge and mass can be identified.

There are two position sensitive delay lines in the focal plane detector. By reconstructing the particle trajectory using the position information of both delay lines, the resolution can be enhanced by correcting for the kinematic shift of the reaction.

== SABRE ==

[[File:SABER installing particle shield.png|thumb|right|Installing particle shield on SABER (photo taken on May 5, 2022)]]

The '''S'''ilicon '''A'''rray for '''B'''ranching '''R'''atio '''E'''xperiments

https://www.sciencedirect.com/science/article/pii/S0168900221002837

== SPS Experiment Guide ==
[[Media:SPS_Experiment_Guide.pdf]]

= Contact =
* Jeff Blackmon mailto:blackmon@lsu.edu
* Ingo
* who should be contacted?

Split-Pole Spectrograph

2022-06-21T15:52:49Z

Gwm17: /* SPS Experiment Guide */

The Split-Pole Spectrograph consists of a reaction chamber, a dipole magnet, ionization chamber, and a plastic scintinatior.

The dipole magnet can be rotated from .... The maximum field can be reached is 2.0 T?

== Focal plane detector ==

An ionization chamber and a plastic scintiator

== SABRE ==

[[File:SABER installing particle shield.png|thumb|right|Installing particle shield on SABER (photo taken on May 5, 2022)]]

The '''S'''ilicon '''A'''rray for '''B'''ranching '''R'''atio '''E'''xperiments

https://www.sciencedirect.com/science/article/pii/S0168900221002837

== SPS Experiment Guide ==
[[Media:SPS_Experiment_Guide.pdf]]

= Contact =
* Jeff Blackmon mailto:blackmon@lsu.edu
* Ingo
* who should be contacted?

Split-Pole Spectrograph

2022-06-21T15:47:13Z

Gwm17:

The Split-Pole Spectrograph consists of a reaction chamber, a dipole magnet, ionization chamber, and a plastic scintinatior.

The dipole magnet can be rotated from .... The maximum field can be reached is 2.0 T?

== Focal plane detector ==

An ionization chamber and a plastic scintiator

== SABRE ==

[[File:SABER installing particle shield.png|thumb|right|Installing particle shield on SABER (photo taken on May 5, 2022)]]

The '''S'''ilicon '''A'''rray for '''B'''ranching '''R'''atio '''E'''xperiments

https://www.sciencedirect.com/science/article/pii/S0168900221002837

== SPS Experiment Guide ==

= Contact =
* Jeff Blackmon mailto:blackmon@lsu.edu
* Ingo
* who should be contacted?

File:SPS Experiment Guide.pdf

2022-06-21T15:45:27Z

Gwm17: SPS experiment guide

== Summary ==
SPS experiment guide