chercheur en milieu académique*chercheur en entreprise, R&D du secteur privé*pilotage de la recherche et de linnovation, gestion de projets innovants, pilotage de structures innovantes*métiers daccompagnement et de support à la recherche, à linnovation et à la valorisation, au développement des Spin Off et Start-up innovantes*expertise, études et conseils dans des organisations, cabinets ou sociétés fournissant des prestations intellectuelles, des expertises scientifiques, prospectives ou stratégiques*Tokamak Plasma Diagnostician, expertise in design and development of tokamak plasma diagnostics
Coordonnées
psantosh@ipr.res.in
santosh.ipr@gmail.com
Expérience professionelle
Domaine d'activité : Research in Plasma Physics
Type de contrat : CDI
Fonction exercée : Design and development of Plasma diagnostics
Organisme de rattachement ou entreprise :
Institute for Plasma Research
Ville : Gandhinagar
Pays : INDE
Adresse professionnelle
Institute for Plasma Research
Opposite to Bath Village
Near Indira Bridge 382428 Gandhinagar
+919825211270
Techniques maîtrisées
Technical Expertise :
Instrumentation:
Engineering drawing & drafting and 2D/3D CAD designing.
Vacuum system development, operation and maintenance.
Experience on handling of various types of lab and experimental equipments like: Scintillator Detectors, IR-camera, Visible camera, Channel Electron Multiplier, Micro Channel Plate, Photo multiplier tube, Lasers, Optical fiber, Lens, Mirrors, Beam splitter, vacuum view ports, Turbo Molecular Pump, Oil Diffusion Pump and different types of gauges, Ion-source and electron source etc.
Dedicated scientist with good troubleshooting, experimental, technical and analytical skills
Computational
Programming languages handled are MATLAB®, FORTRAN® and Quick-Basic used for preparing codes for signal estimation, data analysis and image processing
Solving various type of differential equations using numerical technique in MatLab® and XPPAUT®
Solving Partial Differential Equation using 2-D Finite Element Method in MatLab®
Scientific codes handled for magnetic and electric field simulation
Solving heat load and heat transfer problems using 2-D Finite Element Method
Operating systems: WINDOWS®
Compétences
Research activities and experience:
Tokamak Plasma Diagnostics
Hard X-Ray Monitor:
Experience in conceptualization and preliminary design of the ITER Hard X-Ray Monitor (Hydrogen phase). Related activities performed: Signal estimation of Runaway Electron generation during different phases of a plasma discharge and estimation of Hard X-ray emission. Selection of detection assembly components, design analysis, documentation and related design activities. Further contribution to the design advancement is under progress for the R&D experiments, prototype Hard X-Ray Monitor development and preparation for the final design review.
Neutral Particle Energy Analyzer (NPA):
Experience in designing and development of various types of charge particle and neutral particle energy / mass analyzer using electrostatic, magnetostatic and time of flight techniques. NPAs have been developed for the ADITYA and SST-1 Tokamaks.
Operational experience of above mentioned NPAs, data analysis and interpretation.
Infrared (IR) Imaging Diagnostics:
(a) Infrared Imaging Video Bolometer for the ADITYA and SST-1 tokamaks
(b) Infrared Thermography of Plasma Facing Components for the ADITYA and SST-1 Tokamaks
(c) Detection of synchrotron radiation emitted by confined Runaway Electrons using Infrared Camera for the SST-1 Tokamak and signal estimation for the VIS/IR-diagnostic (PBS.55.G1) to be installed in the ITER tokamak
(d) Thermal Imaging in various experiments using infrared Camera, where non-contact and wide area temperature measurement is required in the filed of plasma physics and fusion research
Experience in designing and development of above mentioned infrared diagnostics.
Operational experience of above mentioned diagnostics, data analysis and interpretation.
Soft X-Ray Imaging diagnostic for the ADITYA tokamak:
Experience in designing and development of Soft X-Ray Imaging Diagnostic.
Analysis Code/algorithm and development of simulation codes for signal estimation
Writing scientific codes in MatLab® for raw data analysis of various diagnostics data and to extract measurement parameters from the processed signal
Analysis code/Algorithm developed:
1. Ion temperature estimation using Neutral Particle Analyzer data
2. Estimation of Heat Flux impinging on the Plasma Facing Components (PFCs) and power drawn by the PFCs using Infrared Thermography data acquired from IR-camera
3. Estimation of plasma radiation brightness in 2D and total radiated power emission from the plasma using Infrared Imaging Video Bolometer Data
4. Extraction of Runaway Electron Parameters (energy, number of electrons and pitch angle etc.) from the synchrotron radiation measurement recorded by the IR-Camera
Writing scientific codes in MatLab® for signal estimation at detector location and to simulate diagnostic setup (synthetic diagnostic). Simulation codes / Model developed:
1. A code is developed to simulate time dependent runaway electron production, its energy dynamics, energy distribution function, pitch angle evolution, size of runaway production zone and synchrotron radiation spectrum emitted by the runaway electrons, synchrotron emission spot pattern etc. based on given plasma parameters. The code has been validated on FTU tokamak, FT-2 Tokamak, TUMAN-3M tokamak plasma discharge results and also with TEXTOR-94 tokamak results. The code is coupled circuit code (self-consistent) and can be applied on fully-time dependent plasma parameters as well as on the static parameters.
2. A code has been developed on thin target and thick target Bremsstrahlung estimation for estimation of Hard X-Ray flux due to interaction of runaway electron with plasma or first wall.
3. Estimation of Charge Exchange Neutral Flux emerging out from the tokamak plasma using slab model (static plasma parameters) and synthetic CX-NPA diagnostic
4. Estimation of radiation power loss from the plasma and to model expected power brightness image at detector plane and to simulate setup (synthetic diagnostic) of Infrared Imaging Video Bolometer (static plasma parameters)
Basic plasma physics related experiments
Experience in designing and development of pure electron plasma trap and operation.
Experience in operation, characterization & repairing / maintenance of Ion Source
Non-Destructive Testing and Examination facilities using Infrared Thermography
Experience in designing, development, calibration, operation and data analysis of following different types of NDT&E facility using Infrared Thermography:
1. Lock-in Thermography
2. Pulse Thermography
3. Hot and Cold stimulation (Step heating)
The facilities are being used for the inspection brazing quality of Plasma Facing Components and other in-vessel components.
Project co-ordinated under BRFST (Board of Research in Fusion Science and Technology), INDIA
1. BRFST Project Title: "Image Fusion of multiple spectral images using Stockwell Transform", Grant No.: NFP-DIAG-A11-03, Present status: The project is completed in August-2013 and the Board accords Grade A to the project.
2. BRFST Project Title: "Development of Advance Medium Wave IR-Camera (35um) for Fusion diagnostics and NDT&E" Grant No.: NFP-DIAG-IND-F12-03, Present status: The project is completed in March-2014 and the Board accords a Grade B+ to the project.
3. BRFST project Title: "Development of non-contact temperature measurement device using laser holography technique", Present Status: Proposal is submitted.
Doctorat
Intitulé : PHYSIQUE & SCIENCES DE LA MATIERE - Spécialité : ENERGIE, RAYONNEMENT ET PLASMA
1ère inscription en thèse :
Juin 2015
École doctorale :
Physique et Sciences de la Matière
Date de soutenance de la thèse :
19 Mars 2019
Sujet :
conception et évaluation des performances des diagnostics de mesure des électrons découplés pour ITER fondé sur une modélisation prédictive
Directeur de thèse :
Joël ROSATO
Co-directeur :
Roger REICHLE
Unité de recherche :
Intitulé de l'équipe :
Master
Intitulé : Master in Physics
Mai 2005 - Department of Physics, Saurashtra University
Mention : Tres bien, 73% out of 100%
Langues vivantes
Anglais : C1 - Avancé
Hindi : C2 - Maternel
Production scientifique
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A Study of Stark Broadening for the Diagnostic of Runaway Electrons in ITER
Proceedings of 19th International Conference on Atomic Processes in Plasmas, 4-8 April 2016, Paris
2016
J. Rosato, S. P. Pandya, Ch. Logeais, M. Meireni, I. Hannachi, R. Reichle, R. Barnsley, Y. Marandet, and R. Stamm
https://apip2016.sciencesconf.org/
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A study of Stark broadening for the diagnostic of runaway electrons in ITER
AIP Conference Proceedings
2017
J. Rosato, S. P. Pandya, Ch. Logeais, M. Meireni, I. Hannachi, R. Reichle, R. Barnsley, Y. Marandet, and R. Stamm
http://aip.scitation.org/doi/abs/10.1063/1.4975733
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Design consideration of ITER Hard X-Ray Monitor for detection of runaway electrons
9th ITER International School (IIS 2017), topic: Physics of disruptions and control, held at Aix-en-Provence (France), 20th-24th March 2017.
2017
Santosh P. Pandya, Govindarajan Jagannathan, Robin Barnsley, Richard O'Connor, Roger Huxford, Michael Lehnen, Roger Reichle, Joël Rosato and Michael Walsh
http://iterschool.univ-amu.fr/index.php
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Runaway electron studies with hard X-ray and microwave diagnostics in the FT-2 lower hybrid current drive discharges
Nuclear Fusion
2017
A.E. Shevelev, E.M. Khilkevitch, S.I. Lashkul, V.V. Rozhdestvensky, S.P. Pandya, V.V. Plyusnin, A.B. Altukhov, D.V. Kouprienko, I.N. Chugunov, D.N. Doinikov, L.A. Esipov, D.B. Gin, M.V. Iliasova, V.O. Naidenov, I.A. Polunovsky, A.V. Sidorov and V.G. Kiptily
http://iopscience.iop.org/article/10.1088/1741-4326/aa8cea
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Feasibility study of possible non-invasive runaway electron diagnostic methods in the proximity of the edge plasma region
16th International Workshop on Plasma Edge Theory in Fusion Devices, September 27-29, 2017, Marseille (France)
2017
Santosh P. Pandya, Joël Rosato, Roger Reichle, Michael Lehnen and Robin Barnsley
https://user.iter.org/?uid=UL4HS2
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A synthetic diagnostic to simulation gammy-ray emission from runaway electrons and application for diagnostic design
PhDiaFusion Summer School on the topic: Neutron and Gamma diagnostics for fusion plasma, September 11-15, 2017, Podlesice, Poland
2017
Santosh P. Pandya, Laura Core, Alexander Shevelev, Joël Rosato, Robin Barnsley, Roger Reichle, Luciano Bertalot, Michael Lehnen and Michael Walsh
https://phdia2017.ifj.edu.pl/
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Conceptual design of the Radial Gamma Ray Spectrometers system for α particle and runaway electron measurements at ITER
Nuclear Fusion
2017
2. Nocente, Massimo; Tardocchi, Marco; Barnsley, Robin; Bertalot, Luciano; Brichard, Benoît; Croci, Gabriele; Brolatti, Giorgio; Di Pace, L.; Fernandes, Ana; Giacomelli, Luca; Lengar, Igor; Moszynski, Marek; Krasilnikov, Anatoly; Muraro, Andrea; Pereira, Rita Costa; Perelli Cippo, Enrico; Rigamonti, Davide; Rebai, Marica; Rzadkiewicz, Jacek; Salewski, Mirko; Santosh, Pandya; Sousa, Jorge; Zychor, Izabella; Gorini, Giuseppe
https://doi.org/10.1088/1741-4326/aa6f7d
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Numerical investigation of runaway electron dynamics in the FT-2 and TUMAN-3M Tokamaks using test-particle model
5th Runaway Electron Meeting, Prague, June 5-8, 2017
2017
Santosh P. Pandya, A.E. Shevelev, E.M. Khilkevitch, I.N. Chugunov, D.B. Gin, M.V. Iliasova, FT-2 and TUMAN-3M Tokamak teams
https://indico.ipp.cas.cz/event/6/session/2/contribution/15
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Overview of ITER Hard X-Ray Monitor
5th Runaway Electron Meeting, Prague, June 5-8, 2017
2017
Santosh P. Pandya, Robin Barnsley, Richard O'Connor, Govindarajan Jagannathan, Roger Huxford and Michael Walsh
https://indico.ipp.cas.cz/event/6/session/8/contribution/19
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Modelling of bremsstrahlung emission from the confined runaway electrons and applications to the Hard X-Ray Monitor of ITER
Physica Scripta
2018
Santosh P. Pandya, Laura Core, Robin Barnsley, Joel Rosato, Roger Reichle, Michael Lehnen, Luciano Bertalot and Michael J Walsh
https://doi.org/10.1088/1402-4896/aaded0
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Study of Runaway Electrons in TUMAN-3M Tokamak Plasmas
Plasma Physics and Controlled Fusion
2018
A. Shevelev, E. Khilkevitch, A. Tukachinsky, S. Pandya, L. Askinazi, A. Belokurov, I. Chugunov, D. Doinikov, D. Gin, M. Iliasova, V. Kiptily, V. Kornev, S. Lebedev, V. Naidenov, V. Plyusnin, I. Polunovsky and N. Zhubr
https://doi.org/10.1088/1361-6587/aac0d5
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A diagnostic approach for the detection of spatially distributed low energy confined runaway electrons in the Aditya-U tokamak by means of synchrotron emission imaging in the sub-millimetre wavelength band
27th IAEA Fusion Energy Conference - IAEA CN-258, October 22-27, 2018, Gandhinagar, India
2018
Santosh P. Pandya, Shwetang N. Pandya, Alexander E. Shevelev, Vladimir V. Rozhdestvensky and Sergei I. Lashkul
https://conferences.iaea.org/indico/event/151/papers/5811/files/4569-FEC_2018_preprints_v3_santosh_Uploaded.pdf