Accelerator Technology R&D Targets and Sources Overview
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Sources
Yine Sun
Argonne National Lab.
Snowmass Community Planning Meeting
Oct. 5, 2020
S
now
M
ass2021
Accelerator Frontier
AF7: Accelerator Technology R&D
o
Targets and Sources
Co-conveners
Charlotte Barbier (ORNL),barbiercn@ornl.gov
Frederique Pellemoine (FNAL),fpellemo@fnal.gov
Yine Sun (ANL),yinesun@anl.gov
Sources: Letter of Interest –
Snowmass 2021
We have received 14 LOIs on Sources.
High brightness / high average current electron sources:
Cathodes
Normal and super conducting RF guns
High Intensity Positron Sources
Muon Sources
High intensity ion sources:
Heavy Ion Sources
SnowMass Community Planning Meeting 10/5/2020 Yine Sun
It’s not too late! You can still submit a LOI athttps://www.snowmass21.org/docs/upload.php
We are Accelerator Frontier and topical group
AF7: Accelerator Technology R&D
2
Sources LOI Overview
SnowMass Community Planning Meeting 10/5/2020 Yine Sun
3
Sources: Grand Challenges
High Brightness Electron Beams (for ILC, CLIC, FELs, UED/UEM, ERLs, Electron cooling of hadron
beams)
◦
Cathodes
◦
Low Mean Transverse Energy (MTE) – small transverse emittance
◦
Quantum Efficiency (QE) – high QE especially needed for e- cooling and ERLs
◦
Emission response time
◦
Long Lifetime
◦
Compatibility with operation condition
◦
Polarization
◦
Guns
◦
High accelerating gradient
◦
High average current
◦
Ultra-high vacuum level for good cathode lifetime
◦
Injectors
◦
Choice of cathodes + guns, and optimization of the injector with accelerating cavities.
SnowMass Community Planning Meeting 10/5/2020 Yine Sun
4
Sources: Grand Challenges
High Intensity Positron Sources / Muon Sources
◦
Positron sources for e+e-/
μ+μ-
collider projects (ILC, CLIC, SuperKEKB, FCC-ee, LEMMA, etc.)
◦
Polarization;
◦
High intensity (orders of magnitude higher than existing positron sources)
◦
Positron
μ± (
e.g. Low EMittance Muon Accelerator)
◦
Proton
muon (MAP Muon source for Muon Collider Collaboration)
Heavy Ion Sources
◦
High reliability
◦
Low emittance
SnowMass Community Planning Meeting 10/5/2020
Yine Sun
5
Sources: Required R&D Area
SnowMass Community Planning Meeting 10/5/2020 Yine Sun
6
High Brightness Electron Beams
–
Cathodes
•
Photocathodes
–
High QE
–
Long lifetime
–
Low TME
–
Polarization
»
Required for colliders
•
Field emitters
•
Thermionic cathodes
–
Guns
•
DC guns:
–
pushing the gap voltage and accelerating gradient;
–
Reliability;
•
Normal Conducting rf guns:
–
CW operation;
–
Reliability;
•
Super-Conducting rf guns
–
Compatible cathodes;
–
Reliability;
–
Injectors
•
Modeling tools for injector design/simulations;
•
Facilities for injector development.
–
Beam diagnostics and control tools
High Intensity Positrons
—
Pol
arization and intensity
•
Electron
positron
•
Photon
positron
Protons
–
Production and acceleration of proton beams from high power
lasers
Muons
–
Positron
μ± (
e.g. Low EMittance Muon Accelerator)
–
Proton
muon (MAP Muon source for Muon Collider
Collaboration)
Heavy Ions Sources
–
Electron Cyclotron Resonance Ion Sources(ECRISs)
–
Electron Beam Ion Source (EBIS)
–
…
Sources: Liaison Identification
Accelerator Frontier
AF7: Accelerator Technology
Targets/Sources
linked in the generation of positrons/muons/hadrons
RF/Sources
RF gun design
Accelerator Frontier
AF4:
e
+
e
-
/
μ
+
μ
-
collider, EIC
Accelerator Frontier
AF6 AAC: particles sources
Computational Frontier
CompF3: Machine Learning: e.g. Injector optimization
…..
7
SnowMass Community Planning Meeting 10/5/2020 Yine Sun
The SnowMass2021 Accelerator Frontier AF7 focuses on Accelerator Technology R&D, exploring targets and sources such as high brightness electron sources, muon sources, and high intensity ion sources. The community planning meeting discussed various Letter of Interest submissions outlining innovative ideas for electron and positron beam generation, high current electron sources, and positron-driven muon sources. The overview presents grand challenges in generating high brightness electron beams for different applications and highlights the importance of cathodes in accelerator technology.
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Presentation Transcript
SnowMass2021 Accelerator Frontier AF7: Accelerator Technology R&D o Targets and Sources Co-conveners Charlotte Barbier (ORNL), barbiercn@ornl.gov Frederique Pellemoine (FNAL), fpellemo@fnal.gov Yine Sun (ANL), yinesun@anl.gov Sources Yine Sun Argonne National Lab. Snowmass Community Planning Meeting Oct. 5, 2020
Sources: Letter of Interest Snowmass 2021 We have received 14 LOIs on Sources. High brightness / high average current electron sources: Cathodes Normal and super conducting RF guns High Intensity Positron Sources Muon Sources High intensity ion sources: Heavy Ion Sources It s not too late! You can still submit a LOI at https://www.snowmass21.org/docs/upload.php We are Accelerator Frontier and topical group AF7: Accelerator Technology R&D 2 SnowMass Community Planning Meeting 10/5/2020 Yine Sun
Sources LOI Overview AuthorLOI AuthorLOI Title Title Link Link M. Biagini LEMMA: a positron driven muon source for a muon collider https://www.snowmass21.org/docs/files/summaries/AF/SNOWMASS21-AF4_AF7-135.pdf G. Bisoffi INFN Position Paper for Snowmass 21 on Accelerator https://www.snowmass21.org/docs/files/summaries/AF/SNOWMASS21-AF1_AF7_GBisoffi-LRossi-100.pdf I. Chaikovska Physics and technology challenges in generating high intensity positron beams https://www.snowmass21.org/docs/files/summaries/AF/SNOWMASS21-AF1_AF7_Iryna_Chaikovska-116.pdf D. Filipetto Pushing Brightness and Current limits of Normal-Conducting Radiofrequency Electron Sources https://www.snowmass21.org/docs/files/summaries/AF/SNOWMASS21-AF7_AF6_Filippetto-194.pdf C-K. Huang Physics-based high-fidelity modeling of high brightness beam injectors https://www.snowmass21.org/docs/files/summaries/AF/SNOWMASS21-AF7_AF1-CompF2_CompF0_Huang-183.pdf S. Karkare Prospects for Future Electron Source Development https://www.snowmass21.org/docs/files/summaries/AF/SNOWMASS21-AF7_AF7_Siddharth_Karkare-052.pdf A. Lumpkin Mitigationof Emittance Dilution Due to Wakefields in Accelerator Cavities Using Advanced Diagnostics with Machine Learning Techniques https://www.snowmass21.org/docs/files/summaries/AF/SNOWMASS21-AF7_AF7_Lumpkin-132.pdf N. Moody Development of next generation rugged electron sources for low emittance, high quantum efficiency, and/or high average current applications https://www.snowmass21.org/docs/files/summaries/AF/SNOWMASS21-AF7_AF0_Nathan_Moody-059.pdf P. Piot Bright Electron and Positron Beams and High-Charge Electron Bunches for Beam-driven Structure-WakeField Accelerators https://www.snowmass21.org/docs/files/summaries/AF/SNOWMASS21-AF7_AF6-234.pdf J. Schieck A Proton-Based Muon Source for a Collider at CERN https://www.snowmass21.org/docs/files/summaries/AF/SNOWMASS21-AF4_AF7-EF0_EF0_C._T._Rogers-065.pdf D. Schulte Muon Collider Accelerator Facility https://www.snowmass21.org/docs/files/summaries/AF/SNOWMASS21-AF4_AF7-102.pdf E. Simakov High current field emission electron sources for linear colliders and RF source applications https://www.snowmass21.org/docs/files/summaries/AF/SNOWMASS21-AF7_AF6_Evgenya_Simakov-047.pdf E. Wang High current high brightness SRF gun https://www.snowmass21.org/docs/files/summaries/AF/SNOWMASS21-AF0-015.pdf D. Xie Production of Heavy Ion Beams with Electron Cyclotron Resonance Ion Sources https://www.snowmass21.org/docs/files/summaries/AF/SNOWMASS21-AF7_AF7-017.pdf SnowMass Community Planning Meeting 10/5/2020 Yine Sun 3
Sources: Grand Challenges High Brightness Electron Beams (for ILC, CLIC, FELs, UED/UEM, ERLs, Electron cooling of hadron beams) Cathodes Low Mean Transverse Energy (MTE) small transverse emittance Quantum Efficiency (QE) high QE especially needed for e- cooling and ERLs Emission response time Long Lifetime Compatibility with operation condition Polarization Guns High accelerating gradient High average current Ultra-high vacuum level for good cathode lifetime Injectors Choice of cathodes + guns, and optimization of the injector with accelerating cavities. 4 SnowMass Community Planning Meeting 10/5/2020 Yine Sun
Sources: Grand Challenges High Intensity Positron Sources / Muon Sources Positron sources for e+e-/ + - collider projects (ILC, CLIC, SuperKEKB, FCC-ee, LEMMA, etc.) Polarization; High intensity (orders of magnitude higher than existing positron sources) Positron (e.g. Low EMittance Muon Accelerator) Proton muon (MAP Muon source for Muon Collider Collaboration) Heavy Ion Sources High reliability Low emittance SnowMass Community Planning Meeting 10/5/2020 5 Yine Sun
Sources: Required R&D Area High Brightness Electron Beams Cathodes Photocathodes High QE Long lifetime Low TME Polarization High Intensity Positrons Polarization and intensity Electron positron Photon positron Protons Production and acceleration of proton beams from high power lasers Muons Positron (e.g. Low EMittance Muon Accelerator) Proton muon (MAP Muon source for Muon Collider Collaboration) Heavy Ions Sources Electron Cyclotron Resonance Ion Sources(ECRISs) Electron Beam Ion Source (EBIS) Required for colliders Field emitters Thermionic cathodes Guns DC guns: Normal Conducting rf guns: CW operation; Reliability; Super-Conducting rf guns Compatible cathodes; Reliability; Injectors Modeling tools for injector design/simulations; Facilities for injector development. Beam diagnostics and control tools pushing the gap voltage and accelerating gradient; Reliability; SnowMass Community Planning Meeting 10/5/2020 Yine Sun 6
Sources: Liaison Identification Accelerator Frontier AF7: Accelerator Technology Targets/Sources linked in the generation of positrons/muons/hadrons RF/Sources RF gun design Accelerator Frontier AF4: e+e-/ + - collider, EIC Accelerator Frontier AF6 AAC: particles sources Computational Frontier CompF3: Machine Learning: e.g. Injector optimization .. 7 SnowMass Community Planning Meeting 10/5/2020 Yine Sun
