Add to ORKGAt LINAC2000 [1] and PAC2001 [2] we reported our verification of the round beam (comparable transverse emittances) to flat beam (high transverse emittance ratio) transformation described by Brinkmann, Derbenev, and Flöttmann [3]. Here, we report progress in improvement between experiment and predictions of simulation.
High brightness photoinjectors for superconducting linac-based FELs are developed, optimized and...
The Stanford Linear Collider (SLC) was recently converted to flat beam operation (ye = = 10 my), pr...
Production of electron bunches with extremely small transverse emittance is the focus of the PITZ (P...
Last year at LINAC2000 [1] we reported our initial verification of the round beam (comparable transv...
Last year at LINAC2000 [1] the authors reported their initial verification of the round beam (compar...
The generation of a flat electron beam directly from a photoinjector is an attractive alternative to...
The generation of a flat electron beam directly from a photoinjector is an attractive alternative to...
A technique for production of an electron beam with a high transverse emittance ratio. a "flat" beam...
Flat beams—beams with asymmetric transverse emittances—have important applications in novel light-so...
In the last decades, photoinjector brightness has improved significantly, driven by the needs of fre...
Photo-injectors beam physics remains a fruitful and exciting field of research. New ideas have been ...
We present a method to generate a flat (large horizontal to vertical emittance ratio) electron beam ...
We present a method to generate a flat (large horizontal to vertical emittance ratio) electron beam ...
Phase space manipulation techniques within two degrees of freedom are foreseen to enhance the perfor...
We present a detailed study of the six-dimensional phase space of the electron beam produced by the ...
High brightness photoinjectors for superconducting linac-based FELs are developed, optimized and...
The Stanford Linear Collider (SLC) was recently converted to flat beam operation (ye = = 10 my), pr...
Production of electron bunches with extremely small transverse emittance is the focus of the PITZ (P...
Last year at LINAC2000 [1] we reported our initial verification of the round beam (comparable transv...
Last year at LINAC2000 [1] the authors reported their initial verification of the round beam (compar...
The generation of a flat electron beam directly from a photoinjector is an attractive alternative to...
The generation of a flat electron beam directly from a photoinjector is an attractive alternative to...
A technique for production of an electron beam with a high transverse emittance ratio. a "flat" beam...
Flat beams—beams with asymmetric transverse emittances—have important applications in novel light-so...
In the last decades, photoinjector brightness has improved significantly, driven by the needs of fre...
Photo-injectors beam physics remains a fruitful and exciting field of research. New ideas have been ...
We present a method to generate a flat (large horizontal to vertical emittance ratio) electron beam ...
We present a method to generate a flat (large horizontal to vertical emittance ratio) electron beam ...
Phase space manipulation techniques within two degrees of freedom are foreseen to enhance the perfor...
We present a detailed study of the six-dimensional phase space of the electron beam produced by the ...
High brightness photoinjectors for superconducting linac-based FELs are developed, optimized and...
The Stanford Linear Collider (SLC) was recently converted to flat beam operation (ye = = 10 my), pr...
Production of electron bunches with extremely small transverse emittance is the focus of the PITZ (P...