Dear URIOT
Can you provide definition of mismatch factor Mx, My and Mz. Can they be correlated to judge equipartition scheme in RFQ? Otherwise how to force equipartition scheme for RFQ in TRACEWIN?
Thanks
Sarvesh
Equipartition scheme in RFQ
Re: Equipartition scheme in RFQ
Dear Sarvesh,
The mismatch factor is defined in the manual and regarding your second point, could you give me more details?
Regards,
Didier
The mismatch factor is defined in the manual and regarding your second point, could you give me more details?
Regards,
Didier
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Re: Equipartition scheme in RFQ
Beam mismatch: (mx, my, mz) The input beam is mismatched by a percentage. A 20 % mismatch in x
plane means αx and βx are multiplied by 1.2². What is meaning of 40% mismatch? 2*1.2²?. What is logic of this formula of 1.2²?
Secondly, Equipartition means ratio of emitance multiplies phase advances in longitudinal and transverse phase space should be equal to one specially after the gentle buncher section in RFQ?.
El*SigmaL/Et*Sigmat = 1. How to implement this condition? Similarly is the ratio of longitudinal beam radius and transverse beam radius =1 for equipartition scheme.
plane means αx and βx are multiplied by 1.2². What is meaning of 40% mismatch? 2*1.2²?. What is logic of this formula of 1.2²?
Secondly, Equipartition means ratio of emitance multiplies phase advances in longitudinal and transverse phase space should be equal to one specially after the gentle buncher section in RFQ?.
El*SigmaL/Et*Sigmat = 1. How to implement this condition? Similarly is the ratio of longitudinal beam radius and transverse beam radius =1 for equipartition scheme.
Re: Equipartition scheme in RFQ
Dear Sarvesh,
Ok, I thougth you spoke about mismatch factor (comprasion between 2 elippses) (see "Mismatch factor" chapter in manual).
For input beam:
20% -> βx are multiplied by 1.2² means that transverse size is 20% bigger
40% -> βx are multiplied by 1.4² means that transverse size is 40% bigger
For your second point, it's a question of how to design an RFQ to have this requirement, isn't it?
Regards,
Didier
Ok, I thougth you spoke about mismatch factor (comprasion between 2 elippses) (see "Mismatch factor" chapter in manual).
For input beam:
20% -> βx are multiplied by 1.2² means that transverse size is 20% bigger
40% -> βx are multiplied by 1.4² means that transverse size is 40% bigger
For your second point, it's a question of how to design an RFQ to have this requirement, isn't it?
Regards,
Didier
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Re: Equipartition scheme in RFQ
Yes, and the one of the best way to design is to have equipartition scheme. Does the RFQDesign follow this or any other way?
Re: Equipartition scheme in RFQ
Dear Sarvesh,
I have moved your topic to RFQ_designer because I think it is mainly about this thematic.
Regards,
Didier
I have moved your topic to RFQ_designer because I think it is mainly about this thematic.
Regards,
Didier
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Re: Equipartition scheme in RFQ
Please see the attached figure. If mismatch factor is 1% -> βx are multiplied by 1.01² means that transverse size is 1% bigger, Please suggest me if its correct or not ?
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Re: Equipartition scheme in RFQ
Hi
It seems your question relates to TraceWin use. Please post it in the dedicated forum and Didier Uriot will do his best for supporting you in using TraceWin.
Best,
Romuald
It seems your question relates to TraceWin use. Please post it in the dedicated forum and Didier Uriot will do his best for supporting you in using TraceWin.
Best,
Romuald