First experiments of the FOM Fusion FEM

A. G.A. Verhoeven; W. A. Bongers; V. L. Bratman; M. Caplan; G. G. Denisov; C. A.J. Van Der Geer; G. Kramer; P. Manintveld; A. J. Poelman; J. Pluygers; M. Yu Shmelyov; P. H.M. Smeets; A. B. Sterk; W. H. Urbanus

First experiments of the FOM Fusion FEM

A. G.A. Verhoeven
, W. A. Bongers
, V. L. Bratman
, M. Caplan
, G. G. Denisov
, C. A.J. Van Der Geer
, G. Kramer
, P. Manintveld
, A. J. Poelman
, J. Pluygers
, M. Yu Shmelyov
, P. H.M. Smeets
, A. B. Sterk
, W. H. Urbanus

Research output: Contribution to journal › Article › peer-review

Abstract

A free electron maser (FEM) has been built as a pilot experiment for a mm-wave source for applications on future fusion research devices such as ITER, the International Tokamak Experimental Reactor. A unique feature of the Dutch Fusion-FEM is the possibility to tune the frequency over the entire range from 130 to 260 GHz at an output power exceeding 1 MW. In the first phase of the project, the so-called inverse set-up is used. The electron gun is mounted inside the high-voltage terminal. The entire beam line was tested successfully with extremely low loss current, lower than 0.05 %. First generation of mm-waves was achieved in October 1997. Highest peak power measured so far is 700 kW at 200 GHz. This was achieved with a beam current of 8 A and an accelerator voltage of 1.77 MV. Output power, start-up time and frequency correspond well with simulation results. Parameter scans for the longitudinal undulator gap, accelerator voltage and reflection coefficient have given a wide range of interesting data of which a few highlights are given.

Original language	English (US)
Pages (from-to)	417-422
Number of pages	6
Journal	ITG-Fachbericht
Issue number	150
State	Published - 1998
Externally published	Yes

All Science Journal Classification (ASJC) codes

Software
Hardware and Architecture

Cite this

@article{12590ce1917942b185768c55d68e35af,

title = "First experiments of the FOM Fusion FEM",

abstract = "A free electron maser (FEM) has been built as a pilot experiment for a mm-wave source for applications on future fusion research devices such as ITER, the International Tokamak Experimental Reactor. A unique feature of the Dutch Fusion-FEM is the possibility to tune the frequency over the entire range from 130 to 260 GHz at an output power exceeding 1 MW. In the first phase of the project, the so-called inverse set-up is used. The electron gun is mounted inside the high-voltage terminal. The entire beam line was tested successfully with extremely low loss current, lower than 0.05 \%. First generation of mm-waves was achieved in October 1997. Highest peak power measured so far is 700 kW at 200 GHz. This was achieved with a beam current of 8 A and an accelerator voltage of 1.77 MV. Output power, start-up time and frequency correspond well with simulation results. Parameter scans for the longitudinal undulator gap, accelerator voltage and reflection coefficient have given a wide range of interesting data of which a few highlights are given.",

author = "Verhoeven, \{A. G.A.\} and Bongers, \{W. A.\} and Bratman, \{V. L.\} and M. Caplan and Denisov, \{G. G.\} and \{Van Der Geer\}, \{C. A.J.\} and G. Kramer and P. Manintveld and Poelman, \{A. J.\} and J. Pluygers and Shmelyov, \{M. Yu\} and Smeets, \{P. H.M.\} and Sterk, \{A. B.\} and Urbanus, \{W. H.\}",

year = "1998",

language = "English (US)",

pages = "417--422",

journal = "ITG-Fachbericht",

issn = "0932-6022",

publisher = "V D E Verlag GmbH",

number = "150",

}

TY - JOUR

T1 - First experiments of the FOM Fusion FEM

AU - Verhoeven, A. G.A.

AU - Bongers, W. A.

AU - Bratman, V. L.

AU - Caplan, M.

AU - Denisov, G. G.

AU - Van Der Geer, C. A.J.

AU - Kramer, G.

AU - Manintveld, P.

AU - Poelman, A. J.

AU - Pluygers, J.

AU - Shmelyov, M. Yu

AU - Smeets, P. H.M.

AU - Sterk, A. B.

AU - Urbanus, W. H.

PY - 1998

Y1 - 1998

N2 - A free electron maser (FEM) has been built as a pilot experiment for a mm-wave source for applications on future fusion research devices such as ITER, the International Tokamak Experimental Reactor. A unique feature of the Dutch Fusion-FEM is the possibility to tune the frequency over the entire range from 130 to 260 GHz at an output power exceeding 1 MW. In the first phase of the project, the so-called inverse set-up is used. The electron gun is mounted inside the high-voltage terminal. The entire beam line was tested successfully with extremely low loss current, lower than 0.05 %. First generation of mm-waves was achieved in October 1997. Highest peak power measured so far is 700 kW at 200 GHz. This was achieved with a beam current of 8 A and an accelerator voltage of 1.77 MV. Output power, start-up time and frequency correspond well with simulation results. Parameter scans for the longitudinal undulator gap, accelerator voltage and reflection coefficient have given a wide range of interesting data of which a few highlights are given.

AB - A free electron maser (FEM) has been built as a pilot experiment for a mm-wave source for applications on future fusion research devices such as ITER, the International Tokamak Experimental Reactor. A unique feature of the Dutch Fusion-FEM is the possibility to tune the frequency over the entire range from 130 to 260 GHz at an output power exceeding 1 MW. In the first phase of the project, the so-called inverse set-up is used. The electron gun is mounted inside the high-voltage terminal. The entire beam line was tested successfully with extremely low loss current, lower than 0.05 %. First generation of mm-waves was achieved in October 1997. Highest peak power measured so far is 700 kW at 200 GHz. This was achieved with a beam current of 8 A and an accelerator voltage of 1.77 MV. Output power, start-up time and frequency correspond well with simulation results. Parameter scans for the longitudinal undulator gap, accelerator voltage and reflection coefficient have given a wide range of interesting data of which a few highlights are given.

UR - https://www.scopus.com/pages/publications/0031653024

UR - https://www.scopus.com/pages/publications/0031653024#tab=citedBy

M3 - Article

AN - SCOPUS:0031653024

SN - 0932-6022

SP - 417

EP - 422

JO - ITG-Fachbericht

JF - ITG-Fachbericht

IS - 150

ER -

First experiments of the FOM Fusion FEM

Abstract

All Science Journal Classification (ASJC) codes

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