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Cole, B.

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Last Name: Cole

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11 papers

title: Demonstration of Electron-Beam Self-Focusing in Plasma Wake Fields

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year: 1990

10 authors: J. B. Rosenzweig | Schoessow, P. | Cole, B. | Ho, C. | W. Gai | Konecny, R. | Mtingwa, S. | Norem, J. | Rosing, M. | Simpson, J.

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title: Experimental studies of plasma wake-field acceleration and focusing

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year: 1990

10 authors: J. B. Rosenzweig | Cole, B. | Ho, C. | W. Gai | Konecny, R. | Mtingwa, S. | Norem, J. | Rosing, M. | Schoessow, P. | Simpson, J.

abstract: The Plasma Wake-field Accelerator (PWFA) continues to be the object of much investigation, due to the promise of the ultra-high accelerating gradients that can exist in relativistic plasma waves driven in the wake of charged particle beams. These large amplitude plasma wake-fields are of interest in the laboratory, both for the wealth of basic nonlinear plasma wave phenomena which can be studied, as well as for the applications of acceleration and focusing of electrons and positrons in linear colliders. Plasma wake-field waves are also of importance in nature, due to their possible role in direct cosmic ray acceleration. The purpose of the present work is to review the experimental advances made in PWFA research at Argonne National Laboratory, in which many interesting beam and plasma phenomena have been observed. Emphasis is given to discussion of the nonlinear aspects of the PWFA beam-plasma interaction. (29 References).

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title: Demonstration of electron beam self-focusing in plasma wake fields

format: conference procceeding

conference: Annual Meeting of the Division of Plasma Physics of the APS

year: 1990

10 authors: J. B. Rosenzweig | Schoessow, P. | Cole, B. | Ho, C. | W. Gai | Konecny, R. | Mtingwa, S. | Norem, J. | Rosing, M. | Simpson, J.

abstract: The direct observation of wake-field self-focusing of an electron beam in plasma is reported. The dynamics of beam self-pinching and the fast collisionless evolution of a Bennett-like, near-equilibrium profile are examined theoretically and computationally. The experimental results are compared to predictions of the analysis and discussed in the context of application to the plasma lens and the plasma wake-field accelerator. (19 References).

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title: Experimental Measurement of Nonlinear Plasma Wake-Fields

format: conference procceeding

conference: 1989 Particle Accelerator Conference

year: 1989

7 authors: J. B. Rosenzweig | Schoessow, P. | Cole, B. | W. Gai | Konecny, R. | Norem, J. | Simpson, J.

abstract: We report direct high resolution observation of nonlinear steepened plasma waves excited in the wake of an intense, self-pinched electron beam. Oscillations in both accelerating and deflecting fields are measured, and analyzed in the context of linear and nonlinear plasma wave theory. The degree of nonlinearity in the wake-fields is shown to be consistent with analytical predictions of the beam self-pinching. The impact of these results on plasma acceleration and focusing schrmrs is discussed.

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title: Argonne plasma wake-field acceleration experiments

format: conference procceeding

conference: 1989 Workshop on Advanced Accelerator Concepts

year: 1989

7 authors: J. B. Rosenzweig | Cole, B. | W. Gai | Konecny, R. | Norem, J. | Schoessow, P. | Simpson, J.

abstract: Four years after the initial proposal of the Plasma Wake-field Accelerator (PWFA), it continues to be the object of much investigation, due to the promise of the ultra-high accelerating gradients that can exist in relativistic plasma waves driven in the wake of charged particle beams. These wake-fields are of interest both in the laboratory, for acceleration and focusing of electrons and positrons in future linear colliders, and in nature as a possible cosmic ray acceleration mechanism. The authors review the recent experimental advances made in PWFA research at Argonne National Laboratory. (25 References).

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title: Experimental measurement of nonlinear plasma wake fields

format: unknown

year: 1989

7 authors: J. B. Rosenzweig | Schoessow, P. | Cole, B. | W. Gai | Konecny, R. | Norem, J. | Simpson, J.

abstract: We report direct high-resolution observation of nonlinear steepened plasma waves excited in the wake of an intense, self-pinched electron beam. Oscillations in both accelerating and deflecting fields are measured, and analyzed in the context of linear and nonlinear plasma-wave theory. The degree of nonlinearity in the wake fields is shown to be consistent with analytical predictions of the beam self-pinching. The impact of these results on plasma acceleration and focusing schemes is discussed.

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title: Experimental observation of plasma wake-field acceleration

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year: 1988

9 authors: J. B. Rosenzweig | D. B. Cline | Cole, B. | Figueroa, H. | W. Gai | Konecny, R. | Norem, J. | Schoessow, P. | Simpson, J.

abstract: The authors report the first experimental test of the physics of plasma wake-field acceleration performed at the Argonne National Laboratory Advanced Accelerator Test Facility. Megavolt-per-meter plasma wake fields are excited by a intense 21-MeV, multipicosecond bunch of electrons in a plasma of density n/sub e/ approximately=10/sup 13/ cm/sup -3/, and probed by a low-intensity 15-MeV witness pulse with a variable delay time behind the intense bunch. Accelerating and deflecting wake-field measurements are presented, and the results compared to theoretical predictions. (8 References).

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title: Experimental Demonstration of Wake-Field Effects in Dielectric Structures

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year: 1988

7 authors: W. Gai | Schoessow, P. | Cole, B. | Konecny, R. | Norem, J. | J. B. Rosenzweig | Simpson, J.

abstract: We have measured the wake fields induced by short, intense relativistic electron bunches in a slow-wave structure consisting of a dielectric-lined tube, as a test of the dielectric wake-field acceleration mechanism. These fields were used to accelerate a second electron bunch which followed the driving bunch at a variable distance. Results are presented for different dielectrics and beam intensities, and are compared with theoretical predictions.

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title: The UW/ANL plasma wake-field acceleration experiment

format: conference procceeding

conference: 1987 Particle Accelerator Conference

year: 1987

5 authors: J. B. Rosenzweig | D. B. Cline | Cole, B. | Detra, J. | Sealy, P.

abstract: An experiment designed to test the physics of the plasma wake-field accelerator (PWFA) using the ANL (Argonne National Laboratory) Advanced Accelerator Test Facility is described. A discussion of theoretical predictions is followed by a status report on the experimental study of the plasma source and diagnostics, the beam diagnostics, and the computer control and data acquisition. The experimental goals are briefly examined. (8 References).

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title: Transverse Focussing Using Plasma Wake Fields

format: conference procceeding

conference: 1987 Particle Accelerator Conference

year: 1987

4 authors: D. B. Cline | Cole, B. | J. B. Rosenzweig | Norem, J.

abstract: Dense particle beams travelling in plasmas can produce very high electric and magnetic fields, and these fields, described by Chen and others can be used to accelerate and focus particles. The effects on trailing beams and self focussing can be strong and nonlinear. This paper discusses two aspects of self pinching beams: 1) the production of beams which do not self pinch, and 2) a short focal length plasma lens which uses self pinching to reduce beam sizes at the interaction point of a linear collider. As an example, we consider a final focus system for the Stanford Linear Collider, considering plasma production, vacuum system and backgrounds, and show how the luminosity could be increased using this system. We also discuss experimental tests of the plasma lens concept.

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title: Luminosity enhancement in linear colliders using a short focal length plasma lens

format: conference procceeding

conference: UCLA Workshop on Linear-Collider BB Factory Conceptual Design

year: 1987

4 authors: J. B. Rosenzweig | Cole, B. | Larson, D. J. | D. B. Cline

abstract: It is likely that powerful new focusing methods will be required for the linear colliders of the future. One scheme that shows much promise is plasma focusing in which a particle bunch traversing a plasma is focused by its own wake-fields. The authors present a review of the theory of self pinching due to plasma wake-fields and extend these previous results by discussing how this effect might be of use in constructing a short focal length plasma lens. They then discuss the general properties of short focal length lenses, and the luminosity enhancement that can be theoretically obtained from them. They also examine some of the practical issues involved in installing a plasma lens in a linear collider. (12 References).

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title:	Demonstration of Electron-Beam Self-Focusing in Plasma Wake Fields
format:	unknown
year:	1990
10 authors:	J. B. Rosenzweig \| Schoessow, P. \| Cole, B. \| Ho, C. \| W. Gai \| Konecny, R. \| Mtingwa, S. \| Norem, J. \| Rosing, M. \| Simpson, J.
abstract:
keywords:
Download \| View \| Details \| edit \| delete

title:	Experimental studies of plasma wake-field acceleration and focusing
format:	unknown
year:	1990
10 authors:	J. B. Rosenzweig \| Cole, B. \| Ho, C. \| W. Gai \| Konecny, R. \| Mtingwa, S. \| Norem, J. \| Rosing, M. \| Schoessow, P. \| Simpson, J.
abstract:	The Plasma Wake-field Accelerator (PWFA) continues to be the object of much investigation, due to the promise of the ultra-high accelerating gradients that can exist in relativistic plasma waves driven in the wake of charged particle beams. These large amplitude plasma wake-fields are of interest in the laboratory, both for the wealth of basic nonlinear plasma wave phenomena which can be studied, as well as for the applications of acceleration and focusing of electrons and positrons in linear colliders. Plasma wake-field waves are also of importance in nature, due to their possible role in direct cosmic ray acceleration. The purpose of the present work is to review the experimental advances made in PWFA research at Argonne National Laboratory, in which many interesting beam and plasma phenomena have been observed. Emphasis is given to discussion of the nonlinear aspects of the PWFA beam-plasma interaction. (29 References).
keywords:
Details \| edit \| delete

title:	Demonstration of electron beam self-focusing in plasma wake fields
format:	conference procceeding
conference:	Annual Meeting of the Division of Plasma Physics of the APS
year:	1990
10 authors:	J. B. Rosenzweig \| Schoessow, P. \| Cole, B. \| Ho, C. \| W. Gai \| Konecny, R. \| Mtingwa, S. \| Norem, J. \| Rosing, M. \| Simpson, J.
abstract:	The direct observation of wake-field self-focusing of an electron beam in plasma is reported. The dynamics of beam self-pinching and the fast collisionless evolution of a Bennett-like, near-equilibrium profile are examined theoretically and computationally. The experimental results are compared to predictions of the analysis and discussed in the context of application to the plasma lens and the plasma wake-field accelerator. (19 References).
keywords:
Details \| edit \| delete

title:	Experimental Measurement of Nonlinear Plasma Wake-Fields
format:	conference procceeding
conference:	1989 Particle Accelerator Conference
year:	1989
7 authors:	J. B. Rosenzweig \| Schoessow, P. \| Cole, B. \| W. Gai \| Konecny, R. \| Norem, J. \| Simpson, J.
abstract:	We report direct high resolution observation of nonlinear steepened plasma waves excited in the wake of an intense, self-pinched electron beam. Oscillations in both accelerating and deflecting fields are measured, and analyzed in the context of linear and nonlinear plasma wave theory. The degree of nonlinearity in the wake-fields is shown to be consistent with analytical predictions of the beam self-pinching. The impact of these results on plasma acceleration and focusing schrmrs is discussed.
keywords:
Download \| View \| Details \| edit \| delete

title:	Argonne plasma wake-field acceleration experiments
format:	conference procceeding
conference:	1989 Workshop on Advanced Accelerator Concepts
year:	1989
7 authors:	J. B. Rosenzweig \| Cole, B. \| W. Gai \| Konecny, R. \| Norem, J. \| Schoessow, P. \| Simpson, J.
abstract:	Four years after the initial proposal of the Plasma Wake-field Accelerator (PWFA), it continues to be the object of much investigation, due to the promise of the ultra-high accelerating gradients that can exist in relativistic plasma waves driven in the wake of charged particle beams. These wake-fields are of interest both in the laboratory, for acceleration and focusing of electrons and positrons in future linear colliders, and in nature as a possible cosmic ray acceleration mechanism. The authors review the recent experimental advances made in PWFA research at Argonne National Laboratory. (25 References).
keywords:
Details \| edit \| delete

title:	Experimental observation of plasma wake-field acceleration
format:	unknown
year:	1988
9 authors:	J. B. Rosenzweig \| D. B. Cline \| Cole, B. \| Figueroa, H. \| W. Gai \| Konecny, R. \| Norem, J. \| Schoessow, P. \| Simpson, J.
abstract:	The authors report the first experimental test of the physics of plasma wake-field acceleration performed at the Argonne National Laboratory Advanced Accelerator Test Facility. Megavolt-per-meter plasma wake fields are excited by a intense 21-MeV, multipicosecond bunch of electrons in a plasma of density n/sub e/ approximately=10/sup 13/ cm/sup -3/, and probed by a low-intensity 15-MeV witness pulse with a variable delay time behind the intense bunch. Accelerating and deflecting wake-field measurements are presented, and the results compared to theoretical predictions. (8 References).
keywords:
Download \| View \| Details \| edit \| delete

title:	Experimental Demonstration of Wake-Field Effects in Dielectric Structures
format:	unknown
year:	1988
7 authors:	W. Gai \| Schoessow, P. \| Cole, B. \| Konecny, R. \| Norem, J. \| J. B. Rosenzweig \| Simpson, J.
abstract:	We have measured the wake fields induced by short, intense relativistic electron bunches in a slow-wave structure consisting of a dielectric-lined tube, as a test of the dielectric wake-field acceleration mechanism. These fields were used to accelerate a second electron bunch which followed the driving bunch at a variable distance. Results are presented for different dielectrics and beam intensities, and are compared with theoretical predictions.
keywords:
Download \| View \| Details \| edit \| delete

title:	The UW/ANL plasma wake-field acceleration experiment
format:	conference procceeding
conference:	1987 Particle Accelerator Conference
year:	1987
5 authors:	J. B. Rosenzweig \| D. B. Cline \| Cole, B. \| Detra, J. \| Sealy, P.
abstract:	An experiment designed to test the physics of the plasma wake-field accelerator (PWFA) using the ANL (Argonne National Laboratory) Advanced Accelerator Test Facility is described. A discussion of theoretical predictions is followed by a status report on the experimental study of the plasma source and diagnostics, the beam diagnostics, and the computer control and data acquisition. The experimental goals are briefly examined. (8 References).
keywords:
Download \| View \| Details \| edit \| delete

title:	Transverse Focussing Using Plasma Wake Fields
format:	conference procceeding
conference:	1987 Particle Accelerator Conference
year:	1987
4 authors:	D. B. Cline \| Cole, B. \| J. B. Rosenzweig \| Norem, J.
abstract:	Dense particle beams travelling in plasmas can produce very high electric and magnetic fields, and these fields, described by Chen and others can be used to accelerate and focus particles. The effects on trailing beams and self focussing can be strong and nonlinear. This paper discusses two aspects of self pinching beams: 1) the production of beams which do not self pinch, and 2) a short focal length plasma lens which uses self pinching to reduce beam sizes at the interaction point of a linear collider. As an example, we consider a final focus system for the Stanford Linear Collider, considering plasma production, vacuum system and backgrounds, and show how the luminosity could be increased using this system. We also discuss experimental tests of the plasma lens concept.
keywords:
Download \| View \| Details \| edit \| delete

title:	Luminosity enhancement in linear colliders using a short focal length plasma lens
format:	conference procceeding
conference:	UCLA Workshop on Linear-Collider BB Factory Conceptual Design
year:	1987
4 authors:	J. B. Rosenzweig \| Cole, B. \| Larson, D. J. \| D. B. Cline
abstract:	It is likely that powerful new focusing methods will be required for the linear colliders of the future. One scheme that shows much promise is plasma focusing in which a particle bunch traversing a plasma is focused by its own wake-fields. The authors present a review of the theory of self pinching due to plasma wake-fields and extend these previous results by discussing how this effect might be of use in constructing a short focal length plasma lens. They then discuss the general properties of short focal length lenses, and the luminosity enhancement that can be theoretically obtained from them. They also examine some of the practical issues involved in installing a plasma lens in a linear collider. (12 References).
keywords:
Details \| edit \| delete

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