National Technical Reports Library

The National Technical Information Service acquires, indexes, abstracts, and archives the largest collection of U.S. government-sponsored technical reports in existence. The NTRL offers online, free and open access to these authenticated government technical reports. Technical reports and documents in its repository may be available online for free either from the issuing federal agency, the U.S. Government Publishing Office’s Federal Digital System website, or through search engines.

Details

Vlasov Treatment of Coherent Synchrotron Radiation from Arbitrary Planar Orbits.

DE2004833093

Publication Date	2004
Personal Author	Warnock, R.; Basi, G.; Ellison, J. A.
Page Count	18
Abstract	We study the influence of coherent synchrotron radiation (CSR) on particle bunches traveling on arbitrary planar orbits between parallel conducting plates. The plates represent shielding due to the vacuum chamber. The vertical distribution of charge is an arbitrary fixed function. Our goal is to follow the time evolution of the phase space distribution by solving the Vlasov-Maxwell equations in the time domain. This provides simulations with lower numerical noise than the macroparticle method, and allows one to study such issues as emittance degradation and microbunching due to CSR in bunch compressors. The fields excited by the bunch are computed in the laboratory frame from a new formula that leads to much simpler computations than the usual retarded potentials or Lienard-Wiechert potentials. The nonlinear Vlasov equation, formulated in the interaction picture, is integrated in the beam frame by approximating the Perron-Frobenius operator. The distribution function is represented by B-splines, in a scheme preserving positivity and normalization of the distribution. For application to a chicane bunch compressor we take steps to deal with energy chirp, an initial near-perfect correlation of energy with position in the bunch.
Keywords	Boltzmann-vlasov equation Synchrotron radiation Compressors Distribution Distribution functions Phase space Plates Shielding
Source Agency	Technical Information Center Oak Ridge Tennessee
Corporate Authors	New Mexico Univ., Albuquerque.; Stanford Linear Accelerator Center, CA.; Department of Energy, Washington, DC.
Supplemental Notes	Prepared in cooperation with Stanford Linear Accelerator Center, CA. Sponsored by Department of Energy, Washington, DC.
Document Type	Technical Report
NTIS Issue Number	200514

Vlasov Treatment of Coherent Synchrotron Radiation from Arbitrary Planar Orbits.

Vlasov Treatment of Coherent Synchrotron Radiation from Arbitrary Planar Orbits.
DE2004833093

Publication Date	2004
Personal Author	Warnock, R.; Basi, G.; Ellison, J. A.
Page Count	18
Abstract	We study the influence of coherent synchrotron radiation (CSR) on particle bunches traveling on arbitrary planar orbits between parallel conducting plates. The plates represent shielding due to the vacuum chamber. The vertical distribution of charge is an arbitrary fixed function. Our goal is to follow the time evolution of the phase space distribution by solving the Vlasov-Maxwell equations in the time domain. This provides simulations with lower numerical noise than the macroparticle method, and allows one to study such issues as emittance degradation and microbunching due to CSR in bunch compressors. The fields excited by the bunch are computed in the laboratory frame from a new formula that leads to much simpler computations than the usual retarded potentials or Lienard-Wiechert potentials. The nonlinear Vlasov equation, formulated in the interaction picture, is integrated in the beam frame by approximating the Perron-Frobenius operator. The distribution function is represented by B-splines, in a scheme preserving positivity and normalization of the distribution. For application to a chicane bunch compressor we take steps to deal with energy chirp, an initial near-perfect correlation of energy with position in the bunch.
Keywords	Boltzmann-vlasov equation Synchrotron radiation Compressors Distribution Distribution functions Phase space Plates Shielding
Source Agency	Technical Information Center Oak Ridge Tennessee
Corporate Authors	New Mexico Univ., Albuquerque.; Stanford Linear Accelerator Center, CA.; Department of Energy, Washington, DC.
Supplemental Notes	Prepared in cooperation with Stanford Linear Accelerator Center, CA. Sponsored by Department of Energy, Washington, DC.
Document Type	Technical Report
NTIS Issue Number	200514