Suresh Saminathan scite author profile

Suresh Saminathan

5Publications

23Citation Statements Received

0Citation Statements Given

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Affiliations

TRIUMF, University of Groningen, Zorginstituut Nederland

Publications

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A new high parallel-field spectrometer at TRIUMF’s β-NMR facility

Thoeng

McFadden

Saminathan

et al. 2023

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A new high field spectrometer has been built to extend the capabilities of the β-detected nuclear magnetic resonance ( β-NMR) facility at TRIUMF. This new beamline extension allows β-NMR spectroscopy to be performed with fields up to 200 mT parallel to a sample’s surface (perpendicular to the ion beam), allowing depth-resolved studies of local electromagnetic fields with spin polarized probes at a much higher applied magnetic field than previously available in this configuration. The primary motivation and application is to allow studies of superconducting radio frequency (SRF) materials close to the critical fields of Nb metal, which is extensively used to fabricate SRF cavities. The details of the design considerations and implementation of the ultra-high vacuum (UHV) system, ion optics, and beam diagnostics are presented here. Commissioning of the beamline and spectrometer with radioactive ions are also reported here. Future capabilities and applications in other areas are also described.

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The CANREB project for charge state breeding at TRIUMF

Ames

Baartman

Barquest

et al. 2018

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The TRIUMF ARIEL RF Modulated Thermionic Electron Source

Ames¹,

Chao²,

Fong³

et al. 2017

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Study of ion beam extraction and transport from an electron cyclotron resonance ion source

Saminathan

Миронов

Beijers

et al. 2010

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We have started an experimental and theoretical program to better understand the extraction and transport of intense multiply charged ion beams from an electron cyclotron resonance ion source (ECRIS). In this paper we present the first results of this program concerning a simple, monocomponent He(+) beam extracted from an ECRIS. We have calculated the ion trajectories starting from the ECRIS plasma electrode up to the image plane of the analyzing magnet taking into account space-charge effects and fringe fields. The initial phase-space distribution of the He(+) beam at the extraction aperture has been calculated with a particle-in-cell code. To check the simulations we have measured beam profiles with a viewing screen both before and after the analyzing magnet. In addition also measurements with a pepperpot emittance meter located behind the analyzing magnet have been performed. We find good agreement between these measurements and simulations showing that (i) there is a significant compensation of the space charge and that (ii) our analyzing magnet causes a severe increase in effective beam emittance.

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Electrostatic potential map modelling with COSY Infinity

Maloney

Baartman

Planche

et al. 2016

Nuclear Instruments and Methods in Physics Research Section B:

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