Salvatore TUDISCO
Academic Year 2021/2022
- DEPARTMENT OF ELECTRICAL, ELECTRONIC AND COMPUTER ENGINEERING
Bachelor's Degree in Industrial Engineering - 2nd Year
PHYSICS II A - L
Academic Year 2020/2021
- DEPARTMENT OF ELECTRICAL, ELECTRONIC AND COMPUTER ENGINEERING
Bachelor's Degree in Industrial Engineering - 2nd Year
PHYSICS II A - L
Academic Year 2019/2020
- DEPARTMENT OF ELECTRICAL, ELECTRONIC AND COMPUTER ENGINEERING
Bachelor's Degree in Industrial Engineering - 2nd Year
PHYSICS II A - L
Academic Year 2018/2019
- DEPARTMENT OF ELECTRICAL, ELECTRONIC AND COMPUTER ENGINEERING
Bachelor's Degree in Industrial Engineering - 2nd Year
PHYSICS II A - L
Academic Year 2017/2018
- DEPARTMENT OF ELECTRICAL, ELECTRONIC AND COMPUTER ENGINEERING
Bachelor's Degree in Industrial Engineering - 2nd Year
PHYSICS II A - L
Academic Year 2016/2017
- DEPARTMENT OF ELECTRICAL, ELECTRONIC AND COMPUTER ENGINEERING
Bachelor's Degree in Industrial Engineering - 1st Year
PHYSICS I A - E - DEPARTMENT OF ELECTRICAL, ELECTRONIC AND COMPUTER ENGINEERING
Bachelor's Degree in Industrial Engineering - 2nd Year
PHYSICS II M - Z
Academic Year 2015/2016
- DEPARTMENT OF INDUSTRIAL ENGINEERING
Bachelor's Degree in Industrial Engineering - 2nd Year
PHYSICS II M - Z
Summary of main scientific activities
Starting from 1994, the investigated research fields have been: (i) reaction mechanisms in heavy-ion collisions
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(ii)nuclear structure
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(iii)nuclear astrophysics
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(iv)R&D of new instrumentation for measuring nuclear physics and biophysics
(v) plasmas produced by laser ablation.
This work was mainly carried out in several laboratories and research institutes, and can be summarized in the following research topics:
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-gamma rays emission in coincidence with charged fragments produced in heavy-ion collisions.
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-Role of Isospin in nuclear structure and in heavy-ion collisions.
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-Alpha cluster structure of 24Mg.
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-Fluctuations in excitation functions of dissipative processes in heavy-ion collisions.
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-"Halo" effects on the fusion cross section at energies around the Coulomb barrier.
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-R&D on new detectors with low energy threshold for heavy ions and new identification techniques and off-line data analysis.
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-Nuclear cross section measurements for astrophysical interest through indirect methods (Trojan Horse).
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-R&D of instrumentations for applications in biophysics and biomedicine.
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-R&D on new single photon detectors.
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-Time resolved imaging sensors for the study of laser produced plasma.