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T. Yarovoi

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8 papers

title: High Energy Gain of Trapped Electrons in a Tapered, Diffraction-Dominated Inverse-Free-Electron Laser

format: preprint

year: 2005

17 authors: P. Musumeci | S. Boucher | A. Doyuran | R. J. England | C. Pellegrini | J. B. Rosenzweig | G. Travish | R. B. Yoder | S. Ya. Tochitsky | C. E. Clayton | C. Joshi | J. E. Ralph | C. Sung | S. Tolmachev | A. A. Varfolomeev | A. A. Varfolomeev Jr. | T. Yarovoi

abstract: Energy gain of trapped electrons in excess of 20 MeV has been demonstrated in an Inverse-Free- Electron-Laser (IFEL) accelerator experiment. A 14.5 MeV electron beam is copropagated with a 400 GW CO2 laser beam in a 50 cm long undulator strongly tapered in period and ¯eld amplitude. The Rayleigh range of the laser, » 1.8 cm, is much shorter than the undulator length yielding a di®raction-dominated interaction. Experimental results on the dependence of the acceleration on injection energy, laser focus position, and laser power are discussed. Simulations, in good agreement with the experimental data, show that most of the energy gain occurs in the ¯rst half of the undulator at a gradient of 70 MeV/m and that the structure in the measured energy spectrum arises because of higher harmonic IFEL interaction in the second half of the undulator.

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title: Status of the Inverse Free Electron Laser Experiment at the Neptune Laboratory

format: conference procceeding

conference: 2003 Particle Accelerator Conference

year: 2003

10 authors: P. Musumeci | C. Pellegrini | J. B. Rosenzweig | S. Tochitsky | G. Travish | R. Yoder | A. Varfolomeev | S. Tolmachev | A. Varfolomeev Jr. | T. Yarovoi

abstract: We report on the status of the Inverse Free Electron Laser accelerator experiment under construction at the UCLA Neptune Laboratory. This experiment will use a 400 GW CO2 laser to accelerate through a tapered undulator an electron beam from 14.5 MeV up to 55 MeV. The scheme proposed is the diffraction dominated IFEL interaction where the Rayleigh range of the laser beam is 3.5 cm, much shorter than the interaction length (the undulator length is 50 cm). The undulator is strongly tapered in both field and period. The present status of the experiment is reported.

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title: Inverse Free Electron Laser Experiment at the Neptune Laboratory

format: conference procceeding

conference: 10th Advanced Accelerator Concepts Workshop

year: 2002

6 authors: P. Musumeci | C. Pellegrini | J. B. Rosenzweig | A. Varfolomeev | Tolmachev, S. | Yarovoi, T.

abstract: We present an Inverse Free Electron Laser accelerator proposed for construction at the UCLA Neptune Laboratory. This experiment will use a 1 TW CO2 laser to accelerate through two strongly tapered undulators an electron beam from 16 MeV up to 5 MeV. The scheme proposed is the diffraction dominated IFEL interaction. The Raleigh range of the laser beam is about 2 cm, much shorter than the interaction length (the undulator length is 50 cm). In this regime adiabatic capture is possible in the first part of the undulator. In the focus region, we propose a solution to the problem of the dephasing between electrons and photons due to the

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title: On the IFEL experiment at the UCLA Neptune Lab

format: conference procceeding

conference: 2001 Particle Accelerator Conference

year: 2001

6 authors: P. Musumeci | C. Pellegrini | J. B. Rosenzweig | A. Varfolomeev | Tolmachev, S. | Yarovoi, T.

abstract: We present an inverse free electron laser accelerator proposed for construction at the UCLA Neptune Lab. This experiment will use a 1TW CO/sub 2/ laser to accelerate through two strongly tapered undulators an electron beam from 16 MeV up to 55 MeV. The scheme proposed is the diffraction dominated IFEL interaction. The Raleigh range of the laser beam is about 2 cm, much shorter than the interaction length (the undulator length is 50 cm). In this regime adiabatic capture is possible in the first part of the undulator. In the focus region, we propose a solution to the problem of the dephasing between electrons and photons due to the Guoy phase shift. Ponderomotive effects and implications for tolerances are also studied. (13 References).

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title: Very High Energy Gain at the Neptune Inverse Free Electron Laser Experiment

format: journal article

year: Dec 2004

16 authors: P. Musumeci | S. Ya. Tochitsky | S. Boucher | A. Doyuran | R. J. England | C. Joshi | C. Pellegrini | J. Ralph | J. B. Rosenzweig | C. Sung | S. Tolmachev | G. Travish | A. Varfolomeev | A. Varfolomeev Jr. | T. Yarovoi | R. Yoder

abstract: We report the observation of energy gain in excess of 20 MeV at the Inverse Free Electron Laser Accelerator experiment at the Neptune Laboratory at UCLA. A 14.5 MeV electron beam is injected in an undulator strongly tapered in period and field amplitude. The IFEL driver is a CO2 10.6 µm laser with power larger than 400 GW. The Rayleigh range of the laser, ~ 1.8 cm, is much shorter than the undulator length so that the interaction is diffraction dominated. A few per cent of the injected particles are trapped in a stable accelerating bucket. Electrons with energies up to 35 MeV are measured by a magnetic spectrometer. Three-dimensional simulations, in good agreement with the measured electron energy spectrum, indicate that most of the acceleration occurs in the first 25 cm of the undulator, corresponding to an energy gradient larger than 70 MeV/m. The measured energy spectrum also indicates that higher harmonic Inverse Free Electron Laser interaction takes place in the second section of the undulator.

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title: Acceleration of electrons in a diffraction-dominated IFEL

format: journal article

year: 2004

16 authors: P. Musumeci | S. Ya. Tochitsky | S. Boucher | A. Doyuran | R. J. England | C. Joshi | C. Pellegrini | J. Ralph | J. B. Rosenzweig | C. Sung | S. Tolmachev | G. Travish | A. Varfolomeev | A. Varfolomeev Jr. | T. Yarovoi | R. Yoder.

abstract: We report on the observation of energy gain in excess of 20 MeV at the Inverse Free Electron Laser Accelerator ex- periment at the Neptune Laboratory at UCLA. A 14.5 MeV electron beam is injected in a 50 cm long undulator strongly tapered both in period and field amplitude. A CO2 10.6 μm laser with power > 300 GW is used as the IFEL driver. The Rayleigh range of the laser ( ∼ 1.8 cm) is shorter than the undulator length so that the interaction is diffraction dom- inated. Few per cent of the injected particles are trapped in stable accelerating buckets and electrons with energies up to 35 MeV are detected on the magnetic spectrometer. Three dimensional simulations are in good agreement with the electron energy spectrums observed in the experiment and indicate that substantial energy exchange between laser and electron beam only occurs in the first 25-30 cm of the undulator. An energy gradient of > 70 MeV is inferred. In the second section of the undulator higher harmonic IFEL interaction is observed.

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title: High Energy Gain of Trapped Electrons in a Tapered, Diffraction-Dominated Inverse-Free-Electron Laser

format: journal article

year:

17 authors: P. Musumeci | S.Ya. Tochitsky | S. Boucher | C. Clayton | A. Doyuran | R. J. England | C. Joshi | C. Pellegrini | J. E. Ralph | J. B. Rosenzweig | C. Sung | S. Tolmachev | G. Travish | A. A. Varfolomeev | A. A. Varfolomeev Jr. | T. Yarovoi | R. B. Yoder

abstract: Energy gain of trapped electrons in excess of 20 MeV has been demonstrated in an inverse-freeelectron-laser (IFEL) accelerator experiment. A 14.5 MeVelectron beam is copropagated with a 400 GW CO2 laser beam in a 50 cm long undulator strongly tapered in period and field amplitude. The Rayleigh range of the laser, 1:8 cm, is much shorter than the undulator length yielding a diffraction-dominated interaction. Experimental results on the dependence of the acceleration on injection energy, laser focus position, and laser power are discussed. Simulations, in good agreement with the experimental data, show that most of the energy gain occurs in the first half of the undulator at a gradient of 70 MeV=m and that the structure in the measured energy spectrum arises because of higher harmonic IFEL interaction in the second half of the undulator.

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title: High Energy gain IFEL at the UCLA Neptune Laboratory

format: journal article

year:

16 authors: P. Musumeci | S. Ya. Tochitsky | S. Boucher | A. Doyuran | R. J. England | C. Joshi | C. Pellegrini | J. Ralph | J. B. Rosenzweig | C. Sung | G. Travish | R. Yoder | A. Varfolomeev | S. Tolmachev | A. Varfolomeev Jr. | T. Yarovoi

abstract: We report on the observation of energy gain in excess of 20MeV at the Inverse Free Electron Laser Accelerator experiment at the Neptune Laboratory at UCLA. A 14.5MeV electron beam is injected in a 50cm longundulator strongly tapered both in period and field amplitude. A CO210.6μm laser with power > 400GW is used as the IFEL driver. The Rayleigh range of the laser(∼1.8cm)is shorter than the undulator length so that the interaction is diffraction dominated. Few per cent of the injected particles are trapped instable accelerating buckets and electrons with energies up to 35 MeV are detected on the magnetic spectrometer. Three dimensional simulations are in good agreement with the electron energy spectrums observed in the experiment and indicate that substantial energy exchange between laser and electron beam only occurs in the first 25-30 cm of the undulator. Anenergygradientof>70MeVisinferred. In these cond section of the undulator higher harmonic IFEL interaction is observed.

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title:	High Energy Gain of Trapped Electrons in a Tapered, Diffraction-Dominated Inverse-Free-Electron Laser
format:	preprint
year:	2005
17 authors:	P. Musumeci \| S. Boucher \| A. Doyuran \| R. J. England \| C. Pellegrini \| J. B. Rosenzweig \| G. Travish \| R. B. Yoder \| S. Ya. Tochitsky \| C. E. Clayton \| C. Joshi \| J. E. Ralph \| C. Sung \| S. Tolmachev \| A. A. Varfolomeev \| A. A. Varfolomeev Jr. \| T. Yarovoi
abstract:	Energy gain of trapped electrons in excess of 20 MeV has been demonstrated in an Inverse-Free- Electron-Laser (IFEL) accelerator experiment. A 14.5 MeV electron beam is copropagated with a 400 GW CO2 laser beam in a 50 cm long undulator strongly tapered in period and ¯eld amplitude. The Rayleigh range of the laser, » 1.8 cm, is much shorter than the undulator length yielding a di®raction-dominated interaction. Experimental results on the dependence of the acceleration on injection energy, laser focus position, and laser power are discussed. Simulations, in good agreement with the experimental data, show that most of the energy gain occurs in the ¯rst half of the undulator at a gradient of 70 MeV/m and that the structure in the measured energy spectrum arises because of higher harmonic IFEL interaction in the second half of the undulator.
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Download \| View \| Details \| edit \| delete

title:	Status of the Inverse Free Electron Laser Experiment at the Neptune Laboratory
format:	conference procceeding
conference:	2003 Particle Accelerator Conference
year:	2003
10 authors:	P. Musumeci \| C. Pellegrini \| J. B. Rosenzweig \| S. Tochitsky \| G. Travish \| R. Yoder \| A. Varfolomeev \| S. Tolmachev \| A. Varfolomeev Jr. \| T. Yarovoi
abstract:	We report on the status of the Inverse Free Electron Laser accelerator experiment under construction at the UCLA Neptune Laboratory. This experiment will use a 400 GW CO2 laser to accelerate through a tapered undulator an electron beam from 14.5 MeV up to 55 MeV. The scheme proposed is the diffraction dominated IFEL interaction where the Rayleigh range of the laser beam is 3.5 cm, much shorter than the interaction length (the undulator length is 50 cm). The undulator is strongly tapered in both field and period. The present status of the experiment is reported.
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title:	Inverse Free Electron Laser Experiment at the Neptune Laboratory
format:	conference procceeding
conference:	10th Advanced Accelerator Concepts Workshop
year:	2002
6 authors:	P. Musumeci \| C. Pellegrini \| J. B. Rosenzweig \| A. Varfolomeev \| Tolmachev, S. \| Yarovoi, T.
abstract:	We present an Inverse Free Electron Laser accelerator proposed for construction at the UCLA Neptune Laboratory. This experiment will use a 1 TW CO2 laser to accelerate through two strongly tapered undulators an electron beam from 16 MeV up to 5 MeV. The scheme proposed is the diffraction dominated IFEL interaction. The Raleigh range of the laser beam is about 2 cm, much shorter than the interaction length (the undulator length is 50 cm). In this regime adiabatic capture is possible in the first part of the undulator. In the focus region, we propose a solution to the problem of the dephasing between electrons and photons due to the
keywords:
Download \| View \| Details \| edit \| delete

title:	On the IFEL experiment at the UCLA Neptune Lab
format:	conference procceeding
conference:	2001 Particle Accelerator Conference
year:	2001
6 authors:	P. Musumeci \| C. Pellegrini \| J. B. Rosenzweig \| A. Varfolomeev \| Tolmachev, S. \| Yarovoi, T.
abstract:	We present an inverse free electron laser accelerator proposed for construction at the UCLA Neptune Lab. This experiment will use a 1TW CO/sub 2/ laser to accelerate through two strongly tapered undulators an electron beam from 16 MeV up to 55 MeV. The scheme proposed is the diffraction dominated IFEL interaction. The Raleigh range of the laser beam is about 2 cm, much shorter than the interaction length (the undulator length is 50 cm). In this regime adiabatic capture is possible in the first part of the undulator. In the focus region, we propose a solution to the problem of the dephasing between electrons and photons due to the Guoy phase shift. Ponderomotive effects and implications for tolerances are also studied. (13 References).
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Download \| View \| Details \| edit \| delete

title:	Very High Energy Gain at the Neptune Inverse Free Electron Laser Experiment
format:	journal article
year:	Dec 2004
16 authors:	P. Musumeci \| S. Ya. Tochitsky \| S. Boucher \| A. Doyuran \| R. J. England \| C. Joshi \| C. Pellegrini \| J. Ralph \| J. B. Rosenzweig \| C. Sung \| S. Tolmachev \| G. Travish \| A. Varfolomeev \| A. Varfolomeev Jr. \| T. Yarovoi \| R. Yoder
abstract:	We report the observation of energy gain in excess of 20 MeV at the Inverse Free Electron Laser Accelerator experiment at the Neptune Laboratory at UCLA. A 14.5 MeV electron beam is injected in an undulator strongly tapered in period and field amplitude. The IFEL driver is a CO2 10.6 µm laser with power larger than 400 GW. The Rayleigh range of the laser, ~ 1.8 cm, is much shorter than the undulator length so that the interaction is diffraction dominated. A few per cent of the injected particles are trapped in a stable accelerating bucket. Electrons with energies up to 35 MeV are measured by a magnetic spectrometer. Three-dimensional simulations, in good agreement with the measured electron energy spectrum, indicate that most of the acceleration occurs in the first 25 cm of the undulator, corresponding to an energy gradient larger than 70 MeV/m. The measured energy spectrum also indicates that higher harmonic Inverse Free Electron Laser interaction takes place in the second section of the undulator.
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Download \| View \| Details \| edit \| delete

title:	Acceleration of electrons in a diffraction-dominated IFEL
format:	journal article
year:	2004
16 authors:	P. Musumeci \| S. Ya. Tochitsky \| S. Boucher \| A. Doyuran \| R. J. England \| C. Joshi \| C. Pellegrini \| J. Ralph \| J. B. Rosenzweig \| C. Sung \| S. Tolmachev \| G. Travish \| A. Varfolomeev \| A. Varfolomeev Jr. \| T. Yarovoi \| R. Yoder.
abstract:	We report on the observation of energy gain in excess of 20 MeV at the Inverse Free Electron Laser Accelerator ex- periment at the Neptune Laboratory at UCLA. A 14.5 MeV electron beam is injected in a 50 cm long undulator strongly tapered both in period and field amplitude. A CO2 10.6 μm laser with power > 300 GW is used as the IFEL driver. The Rayleigh range of the laser ( ∼ 1.8 cm) is shorter than the undulator length so that the interaction is diffraction dom- inated. Few per cent of the injected particles are trapped in stable accelerating buckets and electrons with energies up to 35 MeV are detected on the magnetic spectrometer. Three dimensional simulations are in good agreement with the electron energy spectrums observed in the experiment and indicate that substantial energy exchange between laser and electron beam only occurs in the first 25-30 cm of the undulator. An energy gradient of > 70 MeV is inferred. In the second section of the undulator higher harmonic IFEL interaction is observed.
keywords:	pbpl
Download \| View \| Details \| edit \| delete

title:	High Energy gain IFEL at the UCLA Neptune Laboratory
format:	journal article
year:
16 authors:	P. Musumeci \| S. Ya. Tochitsky \| S. Boucher \| A. Doyuran \| R. J. England \| C. Joshi \| C. Pellegrini \| J. Ralph \| J. B. Rosenzweig \| C. Sung \| G. Travish \| R. Yoder \| A. Varfolomeev \| S. Tolmachev \| A. Varfolomeev Jr. \| T. Yarovoi
abstract:	We report on the observation of energy gain in excess of 20MeV at the Inverse Free Electron Laser Accelerator experiment at the Neptune Laboratory at UCLA. A 14.5MeV electron beam is injected in a 50cm longundulator strongly tapered both in period and field amplitude. A CO210.6μm laser with power > 400GW is used as the IFEL driver. The Rayleigh range of the laser(∼1.8cm)is shorter than the undulator length so that the interaction is diffraction dominated. Few per cent of the injected particles are trapped instable accelerating buckets and electrons with energies up to 35 MeV are detected on the magnetic spectrometer. Three dimensional simulations are in good agreement with the electron energy spectrums observed in the experiment and indicate that substantial energy exchange between laser and electron beam only occurs in the first 25-30 cm of the undulator. Anenergygradientof>70MeVisinferred. In these cond section of the undulator higher harmonic IFEL interaction is observed.
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