2019.01Present: School of Electrical Engineering, Shandong University, associate researcher 2013.10—2018.10:University of Strathclyde, UK, PhD 2012.10—2013.10:University of Strathclyde, UK, Master 2010.09—2012.07:University of Strathclyde, UK, Jointly trained bachelor 2008.09—2012.07:Shanghai Electric Power University, Bachelor of Engineering |
1. Y. Sun and I. Timoshkin, et al, ‘Impulsive discharges in water: acoustic and hydrodynamic parameters,’ IEEE Transactions on Plasma Science, vol. 44, pp 2156-2166, Oct.2016. 2. Y. Sun and I. Timoshkin, et al, ‘Electrical and acoustic parameters of wire-guided discharges in water: experimental determination and phenomenological scaling,’ IEEE Transactions on Plasma Science, vol. 45, pp 2648-2655, Oct. 2017. 3. Y. Sun and I. Timoshkin, et al, ‘Acoustic impulses generated by air-bubble stimulated underwater spark discharges’, IEEE Transactions on Dielectrics and Electrical Insulation, vol. 25, pp 1915-1923, Oct. 2018. 4. Y. Sun, I. V. Timoshkin, M. J. Given, M. P. Wilson, T. Wang, S. J. MacGregor and N. Bonifaci, “Hydrodynamic parameters of air-bubble stimulated underwater spark discharges,” in IEEE 19th ICDL, Manchester, UK, Jun. 25 – 29, 2017, pp. 1-4. 5. I. V. Timoshkin, Y. Sun, M. J. Given, M. P. Wilson, T. Wang, S. J. MacGregor and N. Bonifaci, “Impulsive breakdown in water: optimization of energy delivery for high acoustic output,” in IEEE 19th ICDL, Manchester, UK, Jun. 25 – 29, 2017, pp. 1-4. 6. Y. Sun, I. V. Timoshkin and S. J. MacGregor, “Optimisation of acoustic emission from transit plasma discharges in water,” in Technological Plasma Workshop, Book of Abstracts, Coventry, UK, Oct. 2015, pp. 1. 7. Y. Sun, I. V. Timoshkin and S. J. MacGregor, “Impulsive Discharges in Water: plasma resistance and acoustic emission,” in UHVnet Colloquium, Book of Abstracts, Stafford, UK, Jan. 2015, pp. 1. |
Under research: Precise control of nanosecond pulse discharge shock wave of bubbles in water and optimization of acoustic energy efficiency, National Natural Science Foundation of China Youth Project,[Project number:51907108], hosted,2020-2022,23Ten thousand yuan. Computational and experimental research on discharge phenomena in Martian dust events,National Natural Science Foundation of China General Project,[Project number:11975142], main participant,2020-2023,65Ten thousand yuan. Underwater nanosecond pulse discharge-Study and application of shock wave system mechanism, Shandong UniversityFuture Scholars Program, hosted,2019-2024,50Ten thousand yuan. Shandong University Basic Research Funding Project,Host,2019-2022,1510,000 yuan。 |