W. F. Toonen scite author profile

W. F. Toonen

5Publications

36Citation Statements Received

73Citation Statements Given

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109

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Eindhoven University of Technology

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Time-of-flight electron energy loss spectroscopy using TM110 deflection cavities

Verhoeven

Rens

Ninhuijs

et al. 2016

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We demonstrate the use of two TM110 resonant cavities to generate ultrashort electron pulses and subsequently measure electron energy losses in a time-of-flight type of setup. The method utilizes two synchronized microwave cavities separated by a drift space of 1.45 m. The setup has an energy resolution of 12 ± 2 eV FWHM at 30 keV, with an upper limit for the temporal resolution of 2.7 ± 0.4 ps. Both the time and energy resolution are currently limited by the brightness of the tungsten filament electron gun used. Through simulations, it is shown that an energy resolution of 0.95 eV and a temporal resolution of 110 fs can be achieved using an electron gun with a higher brightness. With this, a new method is provided for time-resolved electron spectroscopy without the need for elaborate laser setups or expensive magnetic spectrometers.

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Gigahertz repetition rate thermionic electron gun concept

Toonen

Stragier

Mutsaers

et al. 2019

Phys. Rev. Accel. Beams

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We present a novel concept for the generation of gigahertz repetition rate high brightness electron bunches. A custom design 100 kV thermionic gun provides a continuous electron beam, with the current determined by the filament size and temperature. A 1 GHz rectangular RF cavity deflects the beam across a knife-edge, creating a pulsed beam. Adding a higher harmonic mode to this cavity results in a flattened magnetic field profile which increases the duty cycle to 30%. Finally, a compression cavity induces a negative longitudinal velocity-time chirp in a bunch, initiating ballistic compression. Adding a higher harmonic mode to this cavity increases the linearity of this chirp and thus decreases the final bunch length. Charged particle simulations show that with a 0.15 mm radius LaB6 filament held at 1760 K, this method can create 279 fs, 3.0 pC electron bunches with a radial rms core emittance of 0.089 mm mrad at a repetition rate of 1 GHz.

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Time-of-flight electron energy loss spectroscopy by longitudinal phase space manipulation with microwave cavities

Verhoeven

Rens

Toonen

et al. 2018

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The possibility to perform high-resolution time-resolved electron energy loss spectroscopy has the potential to impact a broad range of research fields. Resolving small energy losses with ultrashort electron pulses, however, is an enormous challenge due to the low average brightness of a pulsed beam. In this paper, we propose to use time-of-flight measurements combined with longitudinal phase space manipulation using resonant microwave cavities. This allows for both an accurate detection of energy losses with a high current throughput and efficient monochromation. First, a proof-of-principle experiment is presented, showing that with the incorporation of a compression cavity the flight time resolution can be improved significantly. Then, it is shown through simulations that by adding a cavity-based monochromation technique, a full-width-at-half-maximum energy resolution of 22 meV can be achieved with 3.1 ps pulses at a beam energy of 30 keV with currently available technology. By combining state-of-the-art energy resolutions with a pulsed electron beam, the technique proposed here opens up the way to detecting short-lived excitations within the regime of highly collective physics.

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Dual-mode cavity design for advanced continuous-wave electron injector

Rajabi

Toonen

Berg

et al. 2021

Nuclear Instruments and Methods in Physics Research Section A:

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Development of a low-emittance high-current continuous electron source

Toonen

Rajabi

Berg

et al. 2021

Nuclear Instruments and Methods in Physics Research Section A:

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W. F. Toonen

Time-of-flight electron energy loss spectroscopy using TM110 deflection cavities

Gigahertz repetition rate thermionic electron gun concept

Time-of-flight electron energy loss spectroscopy by longitudinal phase space manipulation with microwave cavities

Dual-mode cavity design for advanced continuous-wave electron injector

Development of a low-emittance high-current continuous electron source

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