Add to ORKGLast year at LINAC2000 [1] we reported our initial verification of the round beam (comparable transverse emittances) to flat beam (high transverse emittance ratio) transformation described by Brinkmann, Derbenev, and Flöttmann [2]. Further analysis of our data has confirmed that a transverse emittance ratio of approximately 50 was observed. Graphics representing observational detail are included here, and future plans outlined
The Stanford Linear Collider was designed to operate with round beams [11; horizontal and vertical e...
The production of high-brightness particle beams calls for the development of advanced beam diagnost...
Recent emittance studies at the Los Alamos FEL have indicated several areas of concern in the linac ...
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...
At LINAC2000 [1] and PAC2001 [2] we reported our verification of the round beam (comparable transver...
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...
The generation of a flat electron beam directly from a photoinjector is an attractive alternative to...
The Stanford Linear Collider (SLC) was recently converted to flat beam operation (ye = = 10 my), pr...
Flat beams—beams with asymmetric transverse emittances—have important applications in novel light-so...
Controlling beam emittance is important for future linear colliders as well as high-brightness light...
Derbenev proposed producing a high quality flat beam of high-transverse-emittance ratio (HTER) with ...
The production of high-brightness particle beams calls for the development of advanced beam diagnost...
The flat-beam transform (FBT) for round symmetric beams can be extended using the concept of eigenem...
The Stanford Linear Collider was designed to operate with round beams [11; horizontal and vertical e...
The production of high-brightness particle beams calls for the development of advanced beam diagnost...
Recent emittance studies at the Los Alamos FEL have indicated several areas of concern in the linac ...
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...
At LINAC2000 [1] and PAC2001 [2] we reported our verification of the round beam (comparable transver...
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...
The generation of a flat electron beam directly from a photoinjector is an attractive alternative to...
The Stanford Linear Collider (SLC) was recently converted to flat beam operation (ye = = 10 my), pr...
Flat beams—beams with asymmetric transverse emittances—have important applications in novel light-so...
Controlling beam emittance is important for future linear colliders as well as high-brightness light...
Derbenev proposed producing a high quality flat beam of high-transverse-emittance ratio (HTER) with ...
The production of high-brightness particle beams calls for the development of advanced beam diagnost...
The flat-beam transform (FBT) for round symmetric beams can be extended using the concept of eigenem...
The Stanford Linear Collider was designed to operate with round beams [11; horizontal and vertical e...
The production of high-brightness particle beams calls for the development of advanced beam diagnost...
Recent emittance studies at the Los Alamos FEL have indicated several areas of concern in the linac ...