Difference between revisions of "Archived Documents"
Jump to navigation
Jump to search
(89 intermediate revisions by 5 users not shown) | |||
Line 1: | Line 1: | ||
− | == ''' | + | == '''Journal Publications''' == |
+ | * J. M. Grames, C. K. Sinclair, M. Poelker, X. Roca-Maza, M. L. Stutzman, R. Suleiman, Md. A. Mamun, M. McHugh, D. Moser, J. Hansknecht, B. Moffit, and T. J. Gay, "High precision 5 MeV Mott polarimeter", [https://journals.aps.org/prc/abstract/10.1103/PhysRevC.102.015501 Phys. Rev. C 102, 015501] – Published 6 July 2020 [[media:PhysRevC.102.015501.pdf]] | ||
− | * J. Grames EIC14 [[Media:Mott_EIC14_Grames.pptx]] | + | == '''Conferences, Workshops and Meetings''' == |
+ | |||
+ | ===2020=== | ||
+ | * T. Gay "High-Accuracy 5-MeV Mott Polarimetry at the CEBAF Injector", CFNS Workshop on Beam Polarization and Polarimetry at EIC ([https://indico.bnl.gov/event/7583/]) June 26, 2020 (slides) [[media:EIC Mott Talk v3.pdf]] [[media:EIC Mott Talk v3.pptx]] | ||
+ | |||
+ | === 2016 === | ||
+ | * T. Gay, "High-Precision 5-MeV Mott Polarimetry at the JLab Injector", SPIN 2016 @ UIUC, Sep 26-30, 2016 [[media:SPIN16_Gay.pdf]] | ||
+ | |||
+ | === 2015 === | ||
+ | * J. Grames, Beam Transport Meeting (Feb 10, 2015) [[Media:150210_BTEAM_MOTT.pptx]] [[Media:150210_BTEAM_MOTT.pdf]] | ||
+ | |||
+ | === 2014 === | ||
+ | * J. Grames, EIC14 [[Media:Mott_EIC14_Grames.pptx]] | ||
+ | |||
+ | === 2013 === | ||
+ | * M. McHugh PSTP 2013 talk [[Media:PSTPFinal.pdf]] | ||
* M. McHugh DNP Fall 2013 talk [[Media:DNP_Final.pdf]] | * M. McHugh DNP Fall 2013 talk [[Media:DNP_Final.pdf]] | ||
− | |||
− | |||
+ | === 2001 === | ||
+ | * M. Steigerwald, "MeV Mott Polarimetry at Jefferson Lab", AIP Conf. Proc. '''570''', 935 (2001 [[Media:AIP570_935_2001.pdf]] | ||
+ | |||
+ | == '''References''' == | ||
+ | * J. Grames et al., "Unique electron polarimeter analyzing power comparison and precision spin-based energy measurement", Phys. Rev. ST-AB '''7''', 042802 (2004) [[Media:PhysRevSTAB.7.042802.pdf]] | ||
+ | * T. J. Gay et al., "Extrapolation procedures in Mott electron polarimetry", Rev. Sci. Instrum. '''63''', 114 (1992) [[Media:RevSciInstrum.63.114.pdf]] | ||
+ | * G. G. Ohlsen, Jr. and P. W. Keaton,"Techniques For Measurement of Spin-1/2 and Spin-1 Polarization Analyzing Tensors ", Nucl. Instrum. Meth. '''109''', 41 (1973) [[Media:Cross_ratio.pdf]] | ||
+ | * N. F. Mott, "The Scattering of Fast Electrons by Atomic Nuclei", Proc. R. Soc. A, '''124''', 425 (1929) [[Media:Proc.R.Soc.A.124.425.pdf]] | ||
+ | * N. Sherman, "Coulomb Scattering of Relativistic Electrons by Point Nuclei", Phys. Rev. '''103''', 1601 (1956) [[Media:PhysRev.103.1601.pdf]] [http://dx.doi.org/10.1103/PhysRev.103.1601] | ||
+ | * H. Wegener, "Mott-Streuung an Streufolien endlicher Dicke", Zeitschrift für Physik A Hadrons and Nuclei '''151''', 252 (1958) [[Media:H.Wegener.pdf]] | ||
+ | * J. Kessler, "Electron Spin Polarization by Low-Energy Scattering from Unpolarized Targets", Rev. of Mod. Phys. '''41''', 3 (1968) [[Media:RevModPhys.41.3.pdf]] [http://journals.aps.org/rmp/abstract/10.1103/RevModPhys.41.3] | ||
+ | * J. Sromicki et al., "Polarization in Mott Scattering of Multi-MeV Electrons from Heavy Nuclei", Phys. Rev. Lett. '''82''', 57 (1999) [[Media:PhysRevLett.82.57.pdf]] | ||
+ | * V. Tioukine, K. Aulenbacher and E. Riehn, "A Mott polarimeter operating at MeV electron beam energies", Rev. Sci. Instrum. '''82''', 033303 (2011) [[Media:Rev.Sci.Instrum.82.033303.pdf]] [http://dx.doi.org/10.1063/1.3556593] | ||
+ | * D. H. Jakubassa-Amundsen and R. Barday, "The Sherman function in highly relativistic elastic electron–atom scattering", J. Phys. G: Nucl. Part. Phys. '''39''', 025102 (2012) [[Media:Phys.G-Nucl.Part.Phys.39.025102.pdf]] | ||
+ | * M. A. Khakoo et al., "Monte Carlo studies of Mott scattering asymmetries from gold foils", Phys. Rev. A '''64''', 052713 (2001) [[Media:PhysRevA.64.052713.pdf]] | ||
+ | * S. Qiao and A. Kakizaki, "Monte Carlo calculations for the design of Mott scattering spin polarimeters", Rev. Sci. Instrum. '''68''', 4017 (1997) [[Media:RevSciInstrum.68.4017.pdf]] | ||
+ | * G. D. Fletcher et al., "New insights into Mott-scattering electron polarimetry", Phys. Rev. A '''34''', 911 (1986) [[Media:PhysRevA.34.911.pdf]] | ||
+ | * S. Mayer et al., "Calibration of a Mott electron polarimeter: Comparison of different methods", Rev. Sci. Instrum. '''64''', 952 (1993) [[Media:RevSciInstrum.64.952.pdf]] [http://dx.doi.org/10.1063/1.1144148] | ||
+ | * V. M. Shabaev et al., "QED corrections to the radiative recombination of an electron with a bare nucleus", Phys. Rev. A '''61''', 052112 (2000) [[Media:PhysRevA.61.052112.pdf]] | ||
+ | * J. Kallrath, "Rational Function Techniques and Padé Approximants", in: Hagel, J. (Ed.), Nonlinear Perturbation Methods with Emphasis to Celestial Mechanics pp 97-107, Madeira University Press, Madeira, Portugal [[Media:Pade.pdf]] | ||
+ | |||
+ | == '''Technical Notes''' == | ||
+ | |||
+ | === 2018 === | ||
+ | ;X.Roca-Maza, "Theoretical calculations for precision polarimetry based on Mott scattering" | ||
+ | :[http://iopscience.iop.org/article/10.1209/0295-5075/120/33002/pdf EPL 120 (2017) 33002] (February 2, 2018), [[media:Roca-Maza_2017_EPL_120_33002.pdf]] | ||
+ | |||
+ | === 2017 === | ||
+ | ;X.Roca-Maza, "Theoretical calculations for precision polarimetry based on Mott scattering" | ||
+ | :[https://arxiv.org/abs/1710.08683 arXiv article] (October 25, 2017) (Please also see note from 2015) | ||
+ | |||
+ | ; (FINAL) Analyzed Data Sets | ||
+ | : Run1 and Run2 Asym v Thickness Summary Tables [[media:06.01.17_Run1Run2_SummaryTables.ods]] [[media:06.01.17_Run1Run2_SummaryTables.xlsx]] | ||
+ | : Run1 Asym v Thickness Runs [[media:06.01.17_Run1_ARC+Dilution.ods]] [[media:06.01.17_Run1_ARC+Dilution.xlsx]] | ||
+ | : Run2 Asym v Thickness Runs [[media:06.01.17_Run2_ARC+Dilution.ods]] [[media:06.01.17_Run2_ARC+Dilution.xlsx]] | ||
+ | |||
+ | ;(FINAL) D. Moser "Mott Experiment Run I/II Data Analysis", JLAB-TN-17-025 (July 6th, 2017) | ||
+ | : Entire (Content, Biblio, Appendix) Tech Note PDF [[media:07.03.17 MottAnalysis 17-025_b.pdf]] | ||
+ | : Tech Note PDF [[media:07.06.17 Analysis TN.pdf]] | ||
+ | : Tech Note Editable (Open Office) [[media:07.06.17 Analysis TN.odt]] | ||
+ | : Biblio+Appendix PDF [[media:07.03.17 MottAnalysis Appendix.pdf]] | ||
+ | |||
+ | ;(DRAFT) R. Suleiman, "Mott Detectors and Data Acquisition System", JLab-TN-17-028 (June 6, 2017) | ||
+ | :[[media:Mott_DAQ_JLab-TN-17-028.docx]] | ||
+ | :[[media:Mott_DAQ_JLab-TN-17-028.pdf]] | ||
+ | |||
+ | ;(FINAL) J. Grames, D. Machie, M. Stutzman, "Physical Description of the CEBAF Mott Polarimeter", JLAB-TN-17-018 (July 24, 2017) | ||
+ | :[[media:JLab-TN-17-018.docx]] | ||
+ | :[[media:JLab-TN-17-018.pdf]] | ||
+ | |||
+ | ;(FINAL) M.L.Stutzman, D.G.Moser and T.J.Gay, "Extrapolation of Asymmetry Data to Determine Ao ", JLAB-TN-17-010 | ||
+ | Verified that this coordinates with draft paper as of January 2020. | ||
+ | |||
+ | :[[media:JLab-TN-17-010_Aug2017-final.docx]] | ||
+ | :[[media:JLab-TN-17-010_Aug2017-final.pdf]] | ||
+ | |||
+ | ;(FINAL) J. Grames and B. Freeman, "Beam Systematics for Mott Experiment Runs I and II", JLAB-TN-17-007 (March 9, 2017) | ||
+ | :[[media:JLAB-TN-17-007.docx]] | ||
+ | :[[media:JLAB-TN-17-007.pdf]] | ||
+ | |||
+ | ;(FINAL) J. Grames, "Mott Experiment Run I/II Beam Energies" JLAB-TN-17-001 (January 17, 2017) | ||
+ | :[https://jlabdoc.jlab.org/docushare/dsweb/View/Collection-32202 JLab Document Server] | ||
+ | :[[media:JLAB-TN-17-001.docx]] | ||
+ | :[[media:JLAB-TN-17-001.pdf]] | ||
+ | |||
+ | === 2016 === | ||
+ | ;(FINAL) M. L. Stutzman and Md. A. Mamun "Mott Target Ladder Gold Foil Thickness Measurements" JLAB-TN-16-049 | ||
+ | :[[media:Thickness_Dec2016.docx]] | ||
+ | |||
+ | ;T. Gay, M. L. Stutzman, D. Moser "Extrapolation of Asymmetry Data" | ||
+ | :[[media:Fitting_section_v_3.docx]] | ||
+ | :[[media:Fitting_Section_v_2.docx]] [[media:MS_Fitting_Document.docx]] | ||
+ | :[[media:Asymmetry Rate Summary 1.xlsx]] | ||
+ | :[[media:DM_Background_Subtraction_In_Mott_Analysis.pdf]] | ||
+ | ;M.L. Stutzman, "Asymmetry extrapolations to zero foil thickness" | ||
+ | :[[media:Draft_fitting.docx]] | ||
− | + | ;M.J. McHugh, "GEANT4 Simulation of the Jlab MeV Mott Polarimeter" (dated April 28, 2016) | |
− | + | :[[media:Mott_Geant4_Tech_Note_Final.pdf]] | |
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
+ | === 2015 === | ||
+ | ;X. Roca-Maza, "Mott polarimetry at JLab: working notes on theory" (Sep 23, 2015) (Please also arXiv submission in 2017) | ||
+ | :[[media:150923_Xavier_mott-theory.pdf]] | ||
+ | ;J. Benesch, "A detailed examination of the MDL field map and the TOSCA model of this "5 MeV" dipole" (May 11, 2015) | ||
+ | :[[media:Graphs_MDL.pdf]] [[media:Graphs_MDL.docx]] | ||
− | == | + | === 2014 === |
− | + | ;J. Grames, "Fall 2014 Mott Target Replacement and Ladder Position Re-Calibration" | |
− | + | :[https://jlabdoc/docushare/dsweb/Get/Document-95113/14-026.pdf JLab-TN-14-026] | |
+ | :[[media:JLAB-TN-14-026.pdf]] | ||
+ | === 2013 === | ||
+ | ;S. Rhodes, "Mott Polarimeter Upgrade at Jefferson Lab (June 2013) | ||
+ | :[[Media:SamRhodes_Final.pdf]] | ||
+ | === 2012 === | ||
+ | ;R. Suleiman, "Mott Summary" (April 2012) | ||
+ | :[[Media:Mott_Summary_April2012.pdf]] | ||
+ | :[[Media:Mott_Summary_April2012.ppt]] | ||
== '''OTR''' == | == '''OTR''' == | ||
− | + | :B. Gitter, "Optical Transition Radiation" CAA-Tech-note-internal-#24 (1992) [[Media:gitter_1992_603.pdf]] | |
− | + | :T. da Silva, "Beam monitoring using Optical Transition Radiation" (June 2010) [[Media:OTR_daSilva.pdf]] | |
− | + | :M. Ross et al., "A Very High Resolution Optical Transition Radiation Beam Profile Monitor", SLAC-PUB-9280 (July 2002) [[Media:SLAC-PUB-9280.pdf]] | |
− | + | :P. Piot et al., "High Current CW Beam Profile Monitors Using Transition Radiation at CEBAF" JLAB-TN-96-022_2 (1996) [[Media:JLAB-TN-96-022_2.pdf]] | |
− | + | :J-C. Denard and P. Piot, "OTR screens: What beam current can they stand?" JLAB-TN-95-065 (1995) [[Media:JLAB-TN-95-065.pdf]] |
Latest revision as of 11:02, 7 July 2020
Journal Publications
- J. M. Grames, C. K. Sinclair, M. Poelker, X. Roca-Maza, M. L. Stutzman, R. Suleiman, Md. A. Mamun, M. McHugh, D. Moser, J. Hansknecht, B. Moffit, and T. J. Gay, "High precision 5 MeV Mott polarimeter", Phys. Rev. C 102, 015501 – Published 6 July 2020 media:PhysRevC.102.015501.pdf
Conferences, Workshops and Meetings
2020
- T. Gay "High-Accuracy 5-MeV Mott Polarimetry at the CEBAF Injector", CFNS Workshop on Beam Polarization and Polarimetry at EIC ([1]) June 26, 2020 (slides) media:EIC Mott Talk v3.pdf media:EIC Mott Talk v3.pptx
2016
- T. Gay, "High-Precision 5-MeV Mott Polarimetry at the JLab Injector", SPIN 2016 @ UIUC, Sep 26-30, 2016 media:SPIN16_Gay.pdf
2015
- J. Grames, Beam Transport Meeting (Feb 10, 2015) Media:150210_BTEAM_MOTT.pptx Media:150210_BTEAM_MOTT.pdf
2014
- J. Grames, EIC14 Media:Mott_EIC14_Grames.pptx
2013
- M. McHugh PSTP 2013 talk Media:PSTPFinal.pdf
- M. McHugh DNP Fall 2013 talk Media:DNP_Final.pdf
2001
- M. Steigerwald, "MeV Mott Polarimetry at Jefferson Lab", AIP Conf. Proc. 570, 935 (2001 Media:AIP570_935_2001.pdf
References
- J. Grames et al., "Unique electron polarimeter analyzing power comparison and precision spin-based energy measurement", Phys. Rev. ST-AB 7, 042802 (2004) Media:PhysRevSTAB.7.042802.pdf
- T. J. Gay et al., "Extrapolation procedures in Mott electron polarimetry", Rev. Sci. Instrum. 63, 114 (1992) Media:RevSciInstrum.63.114.pdf
- G. G. Ohlsen, Jr. and P. W. Keaton,"Techniques For Measurement of Spin-1/2 and Spin-1 Polarization Analyzing Tensors ", Nucl. Instrum. Meth. 109, 41 (1973) Media:Cross_ratio.pdf
- N. F. Mott, "The Scattering of Fast Electrons by Atomic Nuclei", Proc. R. Soc. A, 124, 425 (1929) Media:Proc.R.Soc.A.124.425.pdf
- N. Sherman, "Coulomb Scattering of Relativistic Electrons by Point Nuclei", Phys. Rev. 103, 1601 (1956) Media:PhysRev.103.1601.pdf [2]
- H. Wegener, "Mott-Streuung an Streufolien endlicher Dicke", Zeitschrift für Physik A Hadrons and Nuclei 151, 252 (1958) Media:H.Wegener.pdf
- J. Kessler, "Electron Spin Polarization by Low-Energy Scattering from Unpolarized Targets", Rev. of Mod. Phys. 41, 3 (1968) Media:RevModPhys.41.3.pdf [3]
- J. Sromicki et al., "Polarization in Mott Scattering of Multi-MeV Electrons from Heavy Nuclei", Phys. Rev. Lett. 82, 57 (1999) Media:PhysRevLett.82.57.pdf
- V. Tioukine, K. Aulenbacher and E. Riehn, "A Mott polarimeter operating at MeV electron beam energies", Rev. Sci. Instrum. 82, 033303 (2011) Media:Rev.Sci.Instrum.82.033303.pdf [4]
- D. H. Jakubassa-Amundsen and R. Barday, "The Sherman function in highly relativistic elastic electron–atom scattering", J. Phys. G: Nucl. Part. Phys. 39, 025102 (2012) Media:Phys.G-Nucl.Part.Phys.39.025102.pdf
- M. A. Khakoo et al., "Monte Carlo studies of Mott scattering asymmetries from gold foils", Phys. Rev. A 64, 052713 (2001) Media:PhysRevA.64.052713.pdf
- S. Qiao and A. Kakizaki, "Monte Carlo calculations for the design of Mott scattering spin polarimeters", Rev. Sci. Instrum. 68, 4017 (1997) Media:RevSciInstrum.68.4017.pdf
- G. D. Fletcher et al., "New insights into Mott-scattering electron polarimetry", Phys. Rev. A 34, 911 (1986) Media:PhysRevA.34.911.pdf
- S. Mayer et al., "Calibration of a Mott electron polarimeter: Comparison of different methods", Rev. Sci. Instrum. 64, 952 (1993) Media:RevSciInstrum.64.952.pdf [5]
- V. M. Shabaev et al., "QED corrections to the radiative recombination of an electron with a bare nucleus", Phys. Rev. A 61, 052112 (2000) Media:PhysRevA.61.052112.pdf
- J. Kallrath, "Rational Function Techniques and Padé Approximants", in: Hagel, J. (Ed.), Nonlinear Perturbation Methods with Emphasis to Celestial Mechanics pp 97-107, Madeira University Press, Madeira, Portugal Media:Pade.pdf
Technical Notes
2018
- X.Roca-Maza, "Theoretical calculations for precision polarimetry based on Mott scattering"
- EPL 120 (2017) 33002 (February 2, 2018), media:Roca-Maza_2017_EPL_120_33002.pdf
2017
- X.Roca-Maza, "Theoretical calculations for precision polarimetry based on Mott scattering"
- arXiv article (October 25, 2017) (Please also see note from 2015)
- (FINAL) Analyzed Data Sets
- Run1 and Run2 Asym v Thickness Summary Tables media:06.01.17_Run1Run2_SummaryTables.ods media:06.01.17_Run1Run2_SummaryTables.xlsx
- Run1 Asym v Thickness Runs media:06.01.17_Run1_ARC+Dilution.ods media:06.01.17_Run1_ARC+Dilution.xlsx
- Run2 Asym v Thickness Runs media:06.01.17_Run2_ARC+Dilution.ods media:06.01.17_Run2_ARC+Dilution.xlsx
- (FINAL) D. Moser "Mott Experiment Run I/II Data Analysis", JLAB-TN-17-025 (July 6th, 2017)
- Entire (Content, Biblio, Appendix) Tech Note PDF media:07.03.17 MottAnalysis 17-025_b.pdf
- Tech Note PDF media:07.06.17 Analysis TN.pdf
- Tech Note Editable (Open Office) media:07.06.17 Analysis TN.odt
- Biblio+Appendix PDF media:07.03.17 MottAnalysis Appendix.pdf
- (DRAFT) R. Suleiman, "Mott Detectors and Data Acquisition System", JLab-TN-17-028 (June 6, 2017)
- media:Mott_DAQ_JLab-TN-17-028.docx
- media:Mott_DAQ_JLab-TN-17-028.pdf
- (FINAL) J. Grames, D. Machie, M. Stutzman, "Physical Description of the CEBAF Mott Polarimeter", JLAB-TN-17-018 (July 24, 2017)
- media:JLab-TN-17-018.docx
- media:JLab-TN-17-018.pdf
- (FINAL) M.L.Stutzman, D.G.Moser and T.J.Gay, "Extrapolation of Asymmetry Data to Determine Ao ", JLAB-TN-17-010
Verified that this coordinates with draft paper as of January 2020.
- (FINAL) J. Grames and B. Freeman, "Beam Systematics for Mott Experiment Runs I and II", JLAB-TN-17-007 (March 9, 2017)
- media:JLAB-TN-17-007.docx
- media:JLAB-TN-17-007.pdf
- (FINAL) J. Grames, "Mott Experiment Run I/II Beam Energies" JLAB-TN-17-001 (January 17, 2017)
- JLab Document Server
- media:JLAB-TN-17-001.docx
- media:JLAB-TN-17-001.pdf
2016
- (FINAL) M. L. Stutzman and Md. A. Mamun "Mott Target Ladder Gold Foil Thickness Measurements" JLAB-TN-16-049
- media:Thickness_Dec2016.docx
- T. Gay, M. L. Stutzman, D. Moser "Extrapolation of Asymmetry Data"
- media:Fitting_section_v_3.docx
- media:Fitting_Section_v_2.docx media:MS_Fitting_Document.docx
- media:Asymmetry Rate Summary 1.xlsx
- media:DM_Background_Subtraction_In_Mott_Analysis.pdf
- M.L. Stutzman, "Asymmetry extrapolations to zero foil thickness"
- media:Draft_fitting.docx
- M.J. McHugh, "GEANT4 Simulation of the Jlab MeV Mott Polarimeter" (dated April 28, 2016)
- media:Mott_Geant4_Tech_Note_Final.pdf
2015
- X. Roca-Maza, "Mott polarimetry at JLab
- working notes on theory" (Sep 23, 2015) (Please also arXiv submission in 2017)
- media:150923_Xavier_mott-theory.pdf
- J. Benesch, "A detailed examination of the MDL field map and the TOSCA model of this "5 MeV" dipole" (May 11, 2015)
- media:Graphs_MDL.pdf media:Graphs_MDL.docx
2014
- J. Grames, "Fall 2014 Mott Target Replacement and Ladder Position Re-Calibration"
- JLab-TN-14-026
- media:JLAB-TN-14-026.pdf
2013
- S. Rhodes, "Mott Polarimeter Upgrade at Jefferson Lab (June 2013)
- Media:SamRhodes_Final.pdf
2012
- R. Suleiman, "Mott Summary" (April 2012)
- Media:Mott_Summary_April2012.pdf
- Media:Mott_Summary_April2012.ppt
OTR
- B. Gitter, "Optical Transition Radiation" CAA-Tech-note-internal-#24 (1992) Media:gitter_1992_603.pdf
- T. da Silva, "Beam monitoring using Optical Transition Radiation" (June 2010) Media:OTR_daSilva.pdf
- M. Ross et al., "A Very High Resolution Optical Transition Radiation Beam Profile Monitor", SLAC-PUB-9280 (July 2002) Media:SLAC-PUB-9280.pdf
- P. Piot et al., "High Current CW Beam Profile Monitors Using Transition Radiation at CEBAF" JLAB-TN-96-022_2 (1996) Media:JLAB-TN-96-022_2.pdf
- J-C. Denard and P. Piot, "OTR screens: What beam current can they stand?" JLAB-TN-95-065 (1995) Media:JLAB-TN-95-065.pdf