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Difference between revisions of "Author:Andrea Casolari"
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|bio=Researcher at the Institute of Plasma Physics of the Czech Academy of Sciences (CAS) | |||
|sort key=Casolari | |||
}} | |||
{{Person details <!-- tutti i dati sono opzionali --> | |||
|cat = Casolari | |||
|date of birth=1988-09-30 | |||
|city =Prague | |||
|nationality = Italy | |||
|profession = <!-- qualifica professionale di preferenza --> | |||
|professional association = <!-- ordine prof.le di appartenenza --> | |||
|university = <!-- università di riferimento --> | |||
|website = <!-- SOLO IL DOMINIO, senza HTTP:// e senza WWW --> | |||
|twitter = <!-- nome dell'account come appare nella barra degli indirizzi --> | |||
|linkedin = <!-- nome dell'account come appare nella barra degli indirizzi --> | |||
|facebook profile = <!-- PROFILO PERSONALE - nome dell'account come appare nella barra degli indirizzi --> | |||
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}} | |||
==Personal information== | |||
Mobile: +39 3464931937 | |||
email: casolari{{@}}ipp.cas.cz | |||
==Work experience== | |||
===Dates: 2017-2023=== | |||
Occupation or position held: Researcher at the Institute of Plasma Physics of the Czech Academy of Sciences (CAS) | |||
Main activities and responsibilities: study magnetohydrodinamic (MHD) instabilities, runaway electrons (RE) and their interaction with MHD perturbations, electron-cyclotron resonant heating (ECRH) of plasma, transport properties of plasma under the effect of additional heating, analysis of experimental data | |||
Name and address of employer: Institute of Plasma Physics of the CAS, Za Slovankou 1782/3, 18200 Prague | |||
Type of business or sector: Research in physics | |||
Activities carried out: Investigation of magnetic island growth and rotation through analytical models | |||
Study of transport of runaway (relativistic) electrons in presence of magnetic islands | |||
Study of interaction between runaway electrons and electromagnetic waves | |||
Development of an additional heating system based on high frequency (electron cyclotron) waves Study of transport properties of plasma under the effect of electron cyclotron wave heating | |||
==Education and training== | |||
===Dates: 2007-2010=== | |||
Title of qualification awarded: Bachelor degree in physics | |||
Name of organisation providing education and training: Università di Pisa, Lungarno Antonio Pacinotti, 43, 56126 Pisa, PI | |||
===Dates: 2010-2013=== | |||
Title of qualification awarded: Master degree in physics, specialization in plasma physics | |||
Name of organisation providing education and training: Università di Pisa, Lungarno Antonio Pacinotti, 43, 56126 Pisa, PI | |||
===Dates: 2013-2017=== | |||
Title of qualification awarded: PhD in physics | |||
Name of organisation providing education and training: Università di Pisa, Lungarno Antonio Pacinotti, 43, 56126 Pisa, PI | |||
===Dates: 2014-2016=== | |||
Type of experience: Internship for PhD thesis | |||
Name of host organisation: ENEA, Fusion and Nuclear Safety Department, via Enrico Fermi 45, 00044, Frascati, Italy | |||
==Language== | |||
===Mother tongue: Italian=== | |||
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==Social skills and competences== | |||
I am capable of collaborating with other professionists on carrying out a project; I have experience in leading a small team to accomplish a specific task; I am able to relate to companies that produce high- tech components for research | |||
Technical skills and competences | |||
Excellent knowledge of mathematics and physics. I master the following specific subjects in physics: fluidodynamics, electromagnetism, statistical mechanics, plasma physics, quantum mechanics, nuclear physics. I have an excellent knowledge of the methods of Hamiltonian theory, solution of differential equations, real and complex analysis, analytical and numerical methods | |||
==Computer skills and competences== | |||
Good knowledge of the Linux and Windows operating systems and the package of the Microsoft Office tools. Good knowledge of the following programming languages/environments: C, Matlab, Python, Fortran. Good knowledge of the most common algorithms for numerical calculus | |||
==Other skills and competences== | |||
I am able to communicate complex contents in a clear and understandable way thanks to my experience in communicating scientific results in conferences and meetings; I am able to solve complex problems in consequence of my education as a physicist | |||
==Selected publications== | |||
#"Analysis of the chaotic behavior of the lower hybrid wave propagation in magnetized plasma by Hamiltonian theory", A. Casolari, A. Cardinali, Entropy 18, 175 (2016) | |||
#"Diagnostic application of magnetic island rotation in JET", P. Buratti et al., Nuclear Fusion 56, 076004 (2016) | |||
#"Numerical investication of tearing mode amplitude oscillations", A. Casolari, G. Pucella, Il nuovo cimento 40 C (2017) | |||
#"A four-field gyrofluid model with neoclassical effects for the study of the rotation velocity of magnetic islands in tokamaks", A. Casolari, Physics of Plasmas 25, 082514 (2018) | |||
#"Runaway electron experiments at COMPASS in support of the EUROfusion ITER physics research". J. Mlynar et al., Plasma Physics and Controlled Fusion 61, 014010 (2019) | |||
#"Runaway electron beam stability and decay in COMPASS", O. Ficker et al., Nuclear Fusion 59, 096036 (2019) | |||
#"Constraints on the conceptual design of diagnostics for the high magnetic field COMPASS-U tokamak with hot walls", V. Weinzettl et al., Fusion Engineering and design 146, 113501 (2019) | |||
#"Study of stability and rotation of a chain of saturated, freely-rotating magnetic islands in tokamaks", A. Casolari et al., Plasma Physics and Controlled Fusion 63, 074004 (2021) | |||
#"Preliminary design of the COMPASS Upgrade tokamak", P. Vodracek et al., Fusion Engineering and design 169, 112490 (2021) | |||
==International conferences== | |||
#"Study of lower hybrid wave propagation in ionized gas by Hamiltonian theory", A. Casolari, A. Cardinali, AIP Conference Proceedings 1580 (2014) | |||
#"MHD limit cycles on FTU", A. Casolari et al, 102° Congresso Nazionale della Società italiana di Fisica, Padova (2016) | |||
#"Performance predictions for the COMPASS upgrade tokamak", J. Urban, A. Casolari et al, 45th EPS Conference on Plasma Physics (2018) | |||
#"Preliminary concept of electron cyclotron resonance heating for the COMPASS-U tokamak", M. Farnik, A. Casolari et al, 46th EPS Conference on Plasma Physics (2019) | |||
#"Study of runaway electron transport with the fractional diffusion model and comparison with experiments on COMPASS", A. Casolari et al., 46th EPS Conference on Plasma Physics (2019) | |||
#"Whistler wave destabilization by a runaway electron beam in COMPASS", A. Casolari et al, 48th EPS Conference on Plasma Physics (2022) | |||
==Full list of publications== | |||
https://orcid.org/0000-0002-5074-402X | |||