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46 results on '"van der Geer, S. B."'

1. Combining Particle Tracking with Electromagnetic Radiation Showers: Merging GPT and Geant4 with Visualization

Author

Dowell, David H., Hindi, Munther, van der Geer, S. B., and de Loos, M. J.

Subjects
Physics - Accelerator Physics
Abstract

Field emitted electrons can seriously affect the operation of high-field, high-duty factor electron accelerators. Accelerated field emission can result in high average power beams which can radiation damage beamline components. In addition, localized losses generate thermal hot spots whose outgassing degrades the ultra-high vacuum required in photoinjectors and cryomodules. However, despite their importance, the effects of field emission are rarely included in the design and engineering of electron injectors. This work attempts to remedy this situation by combining two well-known and well-documented programs, GPT and Geant4, to track electrons and their losses in an injector beamline. This paper describes a system of programs which simulates electron paths and losses along the beamline. In addition, the tracking results can be zoomed and panned along and about the beampipe envelope using an open-source 3D CAD program. The scattering albedo calculations of the combined program, GPT-Geant4, are shown to be in good agreement with the literature albedos. The paper concludes with a dark current simulation for the LCLS-II injector from the cathode to the collimator at 1.5 m from the cathode.

Published
2022

2. Point-to-Point Coulomb Effects in High Brightness Photoelectron Beamlines for Ultrafast Electron Diffraction

Author

Gordon, M., van der Geer, S. B., Maxson, J., and Kim, Y. -K.

Subjects
Physics - Accelerator Physics
Abstract

In an effort to increase spatial and temporal resolution of ultrafast electron diffraction and microscopy, ultra-high brightness photocathodes are actively sought to improve electron beam quality. Beam dynamics codes often approximate the Coulomb interaction with mean-field space charge, which is a good approximation in traditional beams. However, point-to-point Coulomb effects, such as disorder induced heating and the Boersch effect, can not be neglected in cold, dense beams produced by such photocathodes. In this paper, we introduce two new numerical methods to calculate the important effects of the photocathode image charge when using a point-to-point interaction model. Equipped with an accurate model of the image charge, we calculate the effects of point-to-point interactions on two high brightness photoemission beamlines for ultrafast diffraction. The first beamline uses a 200 keV gun, whereas the second uses a 5 MeV gun, each operating in the single-shot diffraction regime with $10^5$ electrons/pulse. Assuming a zero photoemission temperature, it is shown that including stochastic Coulomb effects increases the final emittance of these beamlines by over a factor of 2 and decreases the peak transverse phase space density by over a factor of 3 as compared to mean-field simulations. We then introduce a method to compute the energy released by disorder induced heating using the pair correlation function. This disorder induced heating energy was found to scale very near the theoretical result for stationary ultracold plasmas, and it accounts for over half of the emittance growth above mean-field simulations., Comment: 15 pages, 17 figures, submitted to PRAB

Published
2021
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3. A self-consistent numerical approach to track particles in FEL interaction with electromagnetic field modes

Author

Fisher, A., Musumeci, P., and Van der Geer, S. B.

Subjects
Physics - Accelerator Physics
Abstract

In this paper we present a novel approach to FEL simulations based on the decomposition of the electromagnetic field in a finite number of radiation modes. The evolution of each mode amplitude is simply determined by energy conservation. The code is developed as an expansion of the General Particle Tracer framework and adds important capabilities to the suite of well-established numerical simulations already available to the FEL community. The approach is not based on the period average approximation and can handle long-wavelength waveguide FELs as it is possible to include the dispersion effects of the boundaries. Futhermore, it correctly simulates lower charge systems where both transverse and longitudinal space charge forces still play a significant role in the dynamics. For free-space FEL interactions, a source dependent expansion approximation can be used to limit the number of transverse modes required to model the field profile and speed up the calculation of the system evolution. Three examples are studied in detail including a single pass FEL amplifier, the high efficiency TESSA266 scenario and a THz waveguide FEL operating in the zero-slippage regime.

Published
2020
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5. Beyond the Limits of 1D Coherent Synchrotron Radiation

Author

Brynes, A. D., Smorenburg, P., Akkermans, I., Allaria, E., Badano, L., Brussaard, S., Danailov, M., Demidovich, A., De Ninno, G., Gauthier, D., Gaio, G., van der Geer, S. B., Giannessi, L., de Loos, M. J., Mirian, N. S., Penco, G., Rebernik, P., Rossi, F., Setija, I., Spampinati, S., Spezzani, C., Trovò, M., Williams, P. H., and DiMitri, S.

Subjects
Physics - Accelerator Physics
Abstract

An understanding of collective effects is of fundamental importance for the design and optimisation of the performance of modern accelerators. In particular, the design of an accelerator with strict requirements on the beam quality, such as a free electron laser (FEL), is highly dependent on a correspondence between simulation, theory and experiments in order to correctly account for the effect of coherent synchrotron radiation (CSR), and other collective effects. A traditional approach in accelerator simulation codes is to utilise an analytic one-dimensional approximation to the CSR force. We present an extension of the 1D CSR theory in order to correctly account for the CSR force at the entrance and exit of a bending magnet. A limited range of applicability to this solution, in particular in bunches with a large transverse spot size or offset from the nominal axis, is recognised. More recently developed codes calculate the CSR effect in dispersive regions directly from the Lienard-Wiechert potentials, albeit with approximations to improve the computational time. A new module of the General Particle Tracer (GPT) code was developed for simulating the effects of CSR, and benchmarked against other codes. We experimentally demonstrate departure from the commonly used 1D CSR theory for more extreme bunch length compression scenarios at the FERMI FEL facility. Better agreement is found between experimental data and the codes which account for the transverse extent of the bunch, particularly in more extreme compression scenarios., Comment: 33 pages, 19 figures, submitted to New J. Phys

Published
2018
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7. Performance predictions of a focused ion beam from a laser cooled and compressed atomic beam

Author

Haaf, G. ten, Wouters, S. H. W., van der Geer, S. B., Vredenbregt, E. J. D., and Mutsaers, P. H. A.

Subjects
Physics - Accelerator Physics, Physics - Atomic Physics
Abstract

Focused ion beams are indispensable tools in the semiconductor industry because of their ability to image and modify structures at the nanometer length scale. Here we report on performance predictions of a new type of focused ion beam based on photo-ionization of a laser cooled and compressed atomic beam. Particle tracing simulations are performed to investigate the effects of disorder-induced heating after ionization in a large electric field. They lead to a constraint on this electric field strength which is used as input for an analytical model which predicts the minimum attainable spot size as a function of amongst others the flux density of the atomic beam, the temperature of this beam and the total current. At low currents (I<10 pA) the spot size will be limited by a combination of spherical aberration and brightness, while at higher currents this is a combination of chromatic aberration and brightness. It is expected that a nanometer size spot is possible at a current of 1 pA. The analytical model was verified with particle tracing simulations of a complete focused ion beam setup. A genetic algorithm was used to find the optimum acceleration electric field as a function of the current. At low currents the result agrees well with the analytical model while at higher currents the spot sizes found are even lower due to effects that are not taken into account in the analytical model.

Published
2014
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8. Compression of sub-relativistic space-charge-dominated electron bunches for single-shot femtosecond electron diffraction

Author

van Oudheusden, T., Pasmans, P. L. E. M., van der Geer, S. B., de Loos, M. J., van der Wiel, M. J., and Luiten, O. J.

Subjects
Physics - Accelerator Physics
Abstract

We demonstrate compression of 95 keV, space-charge-dominated electron bunches to sub-100 fs durations. These bunches have sufficient charge (200 fC) and are of sufficient quality to capture a diffraction pattern with a single shot, which we demonstrate by a diffraction experiment on a polycrystalline gold foil. Compression is realized by means of velocity bunching as a result of a velocity chirp, induced by the oscillatory longitudinal electric field of a 3 GHz radio-frequency cavity. The arrival time jitter is measured to be 80 fs.

Published
2010
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9. New electron source concept for single-shot sub-100 fs electron diffraction in the 100 keV range

Author

van Oudheusden, T., de Jong, E. F., Siwick, B. J., van der Geer, S. B., Root, W. P. E. M. Op 't, and Luiten, O. J.

Subjects
Physics - Accelerator Physics
Abstract

We present a method for producing sub-100 fs electron bunches that are suitable for single-shot ultrafast electron diffraction experiments in the 100 keV energy range. A combination of analytical results and state-of-the-art numerical simulations show that it is possible to create 100 keV, 0.1 pC, 20 fs electron bunches with a spotsize smaller than 500 micron and a transverse coherence length of 3 nm, using established technologies in a table-top set-up. The system operates in the space-charge dominated regime to produce energy-correlated bunches that are recompressed by established radio-frequency techniques. With this approach we overcome the Coulomb expansion of the bunch, providing an entirely new ultrafast electron diffraction source concept.

Published
2007
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12. Addendum: Beyond the limits of 1D coherent synchrotron radiation (2018 New J. Phys. 20 073035)

Author

Brynes, A D, primary, Smorenburg, P, additional, Akkermans, I, additional, Allaria, E, additional, Badano, L, additional, Brussaard, S, additional, Danailov, M, additional, Demidovich, A, additional, De Ninno, G, additional, Gauthier, D, additional, Gaio, G, additional, van der Geer, S B, additional, Giannessi, L, additional, de Loos, M J, additional, Mirian, N S, additional, Penco, G, additional, Rebernik, P, additional, Rossi, F, additional, Setija, I, additional, Spampinati, S, additional, Spezzani, C, additional, Trovò, M, additional, Williams, P H, additional, and Di Mitri, S, additional

Published
2021
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14. An ultra-compact x-ray free-electron laser

Author

Rosenzweig, J B, primary, Majernik, N, additional, Robles, R R, additional, Andonian, G, additional, Camacho, O, additional, Fukasawa, A, additional, Kogar, A, additional, Lawler, G, additional, Miao, Jianwei, additional, Musumeci, P, additional, Naranjo, B, additional, Sakai, Y, additional, Candler, R, additional, Pound, B, additional, Pellegrini, C, additional, Emma, C, additional, Halavanau, A, additional, Hastings, J, additional, Li, Z, additional, Nasr, M, additional, Tantawi, S, additional, Anisimov, P., additional, Carlsten, B, additional, Krawczyk, F, additional, Simakov, E, additional, Faillace, L, additional, Ferrario, M, additional, Spataro, B, additional, Karkare, S, additional, Maxson, J, additional, Ma, Y, additional, Wurtele, J, additional, Murokh, A, additional, Zholents, A, additional, Cianchi, A, additional, Cocco, D, additional, and van der Geer, S B, additional

Published
2020
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15. Performance predictions of a focused ion beam from a laser cooled and compressed atomic beam.

Author

ten Haaf, G., Wouters, S. H. W., van der Geer, S. B., Vredenbregt, E. J. D., and Mutsaers, P. H. A.

Subjects
ION beams, SEMICONDUCTORS, SOLID state electronics, SEMICONDUCTOR wafers, ELECTRIC fields
Abstract

Focused ion beams are indispensable tools in the semiconductor industry because of their ability to image and modify structures at the nanometer length scale. Here, we report on performance predictions of a new type of focused ion beam based on photo-ionization of a laser cooled and compressed atomic beam. Particle tracing simulations are performed to investigate the effects of disorder-induced heating after ionization in a large electric field. They lead to a constraint on this electric field strength which is used as input for an analytical model which predicts the minimum attainable spot size as a function of, amongst others, the flux density of the atomic beam, the temperature of this beam, and the total current. At low currents (I<10 pA), the spot size will be limited by a combination of spherical aberration and brightness, while at higher currents, this is a combination of chromatic aberration and brightness. It is expected that a nanometer size spot is possible at a current of 1 pA. The analytical model was verified with particle tracing simulations of a complete focused ion beam setup. A genetic algorithm was used to find the optimum acceleration electric field as a function of the current. At low currents, the result agrees well with the analytical model, while at higher currents, the spot sizes found are even lower due to effects that are not taken into account in the analytical model. [ABSTRACT FROM AUTHOR]

Published
2014
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16. Beyond the limits of 1D coherent synchrotron radiation

Author

Brynes, A D, primary, Smorenburg, P, additional, Akkermans, I, additional, Allaria, E, additional, Badano, L, additional, Brussaard, S, additional, Danailov, M, additional, Demidovich, A, additional, De Ninno, G, additional, Gauthier, D, additional, Gaio, G, additional, van der Geer, S B, additional, Giannessi, L, additional, de Loos, M J, additional, Mirian, N S, additional, Penco, G, additional, Rebernik, P, additional, Rossi, F, additional, Setija, I, additional, Spampinati, S, additional, Spezzani, C, additional, Trovò, M, additional, Williams, P H, additional, and Di Mitri, S, additional

Published
2018
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17. Experimental validation of a radio frequency photogun as external electron injector for a laser wakefield accelerator.

Author

Stragier, X. F. D., Luiten, O. J., van der Geer, S. B., van der Wiel, M. J., and Brussaard, G. J. H.

Subjects
RADIO frequency, ELECTRONS, LASERS, RADIATION, LASER beams
Abstract

A purpose-built RF-photogun as external electron injector for a laser wakefield accelerator has been thoroughly tested. Different properties of the RF-photogun have been measured such as energy, energy spread and transverse emittance. The focus of this study is the investigation of the smallest possible focus spot and focus stability at the entrance of the plasma channel. For an electron bunch with 10 pC charge and 3.7 MeV kinetic energy, the energy spread was 0.5% with a shot-to-shot stability of 0.05%. After focusing the bunch by a pulsed solenoid lens at 140 mm from the middle of the lens, the focal spot was 40 μm with a shot-to-shot stability of 5 μm. Higher charge leads to higher energy spread and to a larger spot size, due to space charge effects. All properties were found to be close to design values. Given the limited energy of 3.7 MeV, the properties are sufficient for this gun to serve as injector for one particular version of laser wakefield acceleration, i.e., injection ahead of the laser pulse. These measured electron bunch properties were then used as input parameters for simulations of electron bunch injection in a laser wakefield accelerator. The arrival time jitter was deduced from measurements of the energy fluctuation, in combination with earlier measurements using THz coherent transition radiation, and is around 150 fs in the present setup. The bunch length in the focus, simulated using particle tracking, depends on the accelerated charge and goes from 100 fs at 0.1 pC to 1 ps at 50 pC. When simulating the injection of the 3.7 MeV electron bunch of 10 pC in front of a 25 TW laser pulse with a waist of 30 μm in a plasma with a density of 0.7 × 1024 m-3, the maximum accelerated charge was found to be 1.2 pC with a kinetic energy of ∼900 MeV and an energy spread of ∼5%. The experiments combined with the simulations show the feasibility of external injection and give a prediction of the output parameters that can be expected from a laser wakefield accelerator with external injection of electrons. [ABSTRACT FROM AUTHOR]

Published
2011
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18. Time-dependent manipulation of ultracold ion bunches.

Author

Reijnders, M. P., Debernardi, N., van der Geer, S. B., Mutsaers, P. H. A., Vredenbregt, E. J. D., and Luiten, O. J.

Subjects
IONS, PHOTOIONIZATION, ION bombardment, IONIZATION (Atomic physics), PHOTOCHEMISTRY
Abstract

The combination of an ultracold ion source based on photoionization of a laser-cooled gas and time-dependent acceleration fields enables precise manipulation of ion beams. We demonstrate reduction in the longitudinal energy spread and transverse (de)focusing of the beam by applying time-dependent acceleration voltages. In addition, we show how time-dependent acceleration fields can be used to control both the sign and strength of the spherical aberrations. The experimental results are in close agreement with detailed charged particle tracking simulations and can be explained in terms of a simple analytical model. [ABSTRACT FROM AUTHOR]

Published
2011
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19. Simulated performance of an ultracold ion source.

Author

van der Geer, S. B., Reijnders, M. P., de Loos, M. J., Vredenbregt, E. J. D., Mutsaers, P. H. A., and Luiten, O. J.

Subjects
*METAL ions, *ION bombardment, *SPACE charge, *ION sources, *COULOMB excitation
Abstract

At present, the smallest spot size which can be achieved with state-of-the-art focused ion beam (FIB) technology is mainly limited by the chromatic aberrations associated with the 4.5 eV energy spread of the liquid-metal ion source. Here we numerically investigate the performance of an ultracold ion source which has the potential for generating ion beams which combine high brightness with small energy spread. The source is based on creating very cold ion beams by near-threshold photoionization of a laser-cooled and trapped atomic gas. We present ab initio numerical calculations of the generation of ultracold beams in a realistic acceleration field and including all Coulomb interactions, i.e., both space charge effects and statistical Coulomb effects. These simulations demonstrate that with existing technology reduced brightness values exceeding 105 A m-2 sr-1 V-1 are feasible at an energy spread as low as 0.1 eV. The estimated spot size of the ultracold ion source in a FIB instrument ranges from 10 nm at a current of 100 pA to 0.8 nm at 1 pA. [ABSTRACT FROM AUTHOR]

Published
2007
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20. Electron source concept for single-shot sub-100 fs electron diffraction in the 100 keV range.

Author

van Oudheusden, T., de Jong, E. F., van der Geer, S. B., ’t Root, W. P. E. M. Op, Luiten, O. J., and Siwick, B. J.

Subjects
ELECTRON diffraction, NUCLEAR research, MOLECULAR dynamics, ATOMIC structure, ULTRASHORT laser pulses
Abstract

We present a method for producing sub-100 fs electron bunches that are suitable for single-shot ultrafast electron diffraction experiments in the 100 keV energy range. A combination of analytical estimates and state-of-the-art particle tracking simulations show that it is possible to create 100 keV, 0.1 pC, 30 fs electron bunches with a spot size smaller than 500 μm and a transverse coherence length of 3 nm, using established technologies in a table-top setup. The system operates in the space-charge dominated regime to produce energy-correlated bunches that are recompressed by radio-frequency techniques. With this approach we overcome the Coulomb expansion of the bunch, providing a single-shot, ultrafast electron diffraction source concept. [ABSTRACT FROM AUTHOR]

Published
2007
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21. Front-to-end simulations of the design of a laser wakefield accelerator with external injection.

Author

Urbanus, W. H., van Dijk, W., van der Geer, S. B., Brussaard, G. J. H., and van der Wiel, M. J.

Subjects
ELECTRON accelerators, LASERS, PLASMA gases, LASER beams, PARTICLE accelerators
Abstract

We report the design of a laser wakefield accelerator (LWA) with external injection by a rf photogun and acceleration by a linear wakefield in a capillary discharge channel. The design process is complex due to the large number of intricately coupled free parameters. To alleviate this problem, we performed front-to-end simulations of the complete system. The tool we used was the general particle-tracking code, extended with a module representing the linear wakefield by a two-dimensional traveling wave with appropriate wavelength and amplitude. Given the limitations of existing technology for the longest discharge plasma wavelength (∼50 μm) and shortest electron bunch length (∼100 μm), we studied the regime in which the wakefield acts as slicer and buncher, while rejecting a large fraction of the injected bunch. The optimized parameters for the injected bunch are 10 pC, 300 fs at 6.7 MeV, to be injected into a 70 mm long channel at a plasma density of 7×1023 m-3. A linear wakefield is generated by a 2 TW laser focused to 30 μm. The simulations predict an accelerated output of 0.6 pC, 10 fs bunches at 90 MeV, with energy spread below 10%. The design is currently being implemented. The design process also led to an important conclusion: output specifications directly comparable to those reported recently from “laser-into-gas jet” experiments are feasible, provided the performance of the rf photogun is considerably enhanced. The paper outlines a photogun design providing such a performance level. [ABSTRACT FROM AUTHOR]

Published
2006
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22. An ultrashort pulse ultra-violet radiation undulator source driven by a laser plasma wakefield accelerator

Author

Anania, M. P., primary, Brunetti, E., additional, Wiggins, S. M., additional, Grant, D. W., additional, Welsh, G. H., additional, Issac, R. C., additional, Cipiccia, S., additional, Shanks, R. P., additional, Manahan, G. G., additional, Aniculaesei, C., additional, van der Geer, S. B., additional, de Loos, M. J., additional, Poole, M. W., additional, Shepherd, B. J. A., additional, Clarke, J. A., additional, Gillespie, W. A., additional, MacLeod, A. M., additional, and Jaroszynski, D. A., additional

Published
2014
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25. High quality electron beams from a laser wakefield accelerator

Author

Wiggins, S M, primary, Issac, R C, additional, Welsh, G H, additional, Brunetti, E, additional, Shanks, R P, additional, Anania, M P, additional, Cipiccia, S, additional, Manahan, G G, additional, Aniculaesei, C, additional, Ersfeld, B, additional, Islam, M R, additional, Burgess, R T L, additional, Vieux, G, additional, Gillespie, W A, additional, MacLeod, A M, additional, van der Geer, S B, additional, de Loos, M J, additional, and Jaroszynski, D A, additional

Published
2010
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36. ULTRACOLD ELECTRON SOURCES

Author

LUITEN, O. J., primary, CLAESSENS, B. J., additional, VAN DER GEER, S. B., additional, REIJNDERS, M. P., additional, TABAN, G., additional, and VREDENBREGT, E. J. D., additional

Published
2007
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39. Ultracold Electron Source

Author

Claessens, B. J., primary, van der Geer, S. B., additional, Taban, G., additional, Vredenbregt, E. J. D., additional, and Luiten, O. J., additional

Published
2005
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43. ULTRACOLD ELECTRON SOURCES.

Author

LUITEN, O. J., CLAESSENS, B. J., VAN DER GEER, S. B., REIJNDERS, M. P., TABAN, G., and VREDENBREGT, E. J. D.

Subjects
ELECTRON beams, LASER beams, LASER plasmas, PHOTOIONIZATION, PARTICLE beams
Published
2007

45. Ultracold Electron Source for Single-Shot, Ultrafast Electron Diffraction.

Author

van der Geer, S. B., de Loos, M. J., Vredenbregt, E. J. D., and Luiten, O. J.

Subjects
ULTRACOLD neutrons, ELECTRON diffraction, PHOTOIONIZATION, FEMTOSECOND lasers, STRUCTURAL dynamics
Abstract

Ultrafast electron diffraction (UED) enables studies of structural dynamics at atomic length and timescales, i.e., 0.1 nm and 0.1 ps, in single-shot mode. At present UED experiments are based on femtosecond laser photoemission from solid state cathodes. These photoemission sources perform excellently, but are not sufficiently bright for single-shot studies of, for example, biomolecular samples. We propose a new type of electron source, based on near-threshold photoionization of a laser-cooled and trapped atomic gas. The electron temperature of these sources can be as low as 10 K, implying an increase in brightness by orders of magnitude. We investigate a setup consisting of an ultracold electron source and standard radio-frequency acceleration techniques by GPT tracking simulations. The simulations use realistic fields and include all pairwise Coulomb interactions. We show that in this setup 120 keV, 0.1 pC electron bunches can be produced with a longitudinal emittance sufficiently small for enabling sub-100 fs bunch lengths at 1% relative energy spread. A transverse root-mean-square normalized emittance of ϵx= 10 nm is obtained, significantly better than from photoemission sources. Correlations in transverse phase-space indicate that the transverse emittance can be improved even further, enabling single-shot studies of biomolecular samples. [ABSTRACT FROM AUTHOR]

Published
2009
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46. Microwave TM(010) cavities as versatile 4D electron optical elements.

Author

Pasmans PL, van den Ham GB, Dal Conte SF, van der Geer SB, and Luiten OJ

Abstract

The realization of high quality ultrashort pulsed beams requires ultrafast time-dependent electron optics. We present derivations of closed expressions both for the longitudinal and transverse focusing powers of resonant microwave TM010 cavities. The derived expressions are validated by particle tracking simulations using realistic cavity fields. For small field amplitudes, in which case the "weak lens" approximation holds, the focusing powers obtained from simulations are in good agreement with the derived expressions. Furthermore, the required phase and temperature stability for synchronization of electron bunches generated by femtosecond photoemission are discussed., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published
2013
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