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apostol_vourdas [2017/09/04 07:56] – [Biography] weinbubapostol_vourdas [2020/03/07 11:11] – [Wigner-specific research] weinbub
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-170 journal papers and 60 conference papers (3600 citations and h-factor=34 according to Google Scholar)+  * 170 journal papers and 60 conference papers (3600 citations and h-factor=34 according to Google Scholar) 
 +  * 55 invited talks and 55 contributed talks in international conferences 
 +  * [[Apostol Vourdas]], [[https://www.springer.com/gp/book/9783319594941|Finite and Profinite Quantum Systems]] (Springer, 2017) 
 +  * teaching interests: Computer Architecture, Formal Methods in Computer Science, Computer Graphics
  
-SPRINGER monograph `finite and profinite quantum systems', 2017 
-click here 
- 
-55 invited talks and 55 contributed talks in international conferences 
- 
-teaching interests: Computer Architecture, Formal Methods in Computer Science, Computer Graphics 
 ==== Research in Quantum Computing ==== ==== Research in Quantum Computing ====
  
-Finite Quantum Systems. Galois fields in Quantum Computing and applications to coding and cryptography +  * Finite Quantum Systems. Galois fields in Quantum Computing and applications to coding and cryptography 
- +  Algebraic number theory (e.g., p-adic numbers) in Quantum Mechanics and harmonic analysis. 
-Algebraic number theory (e.g., p-adic numbers) in Quantum Mechanics and harmonic analysis. +  Analytic functions in quantum computing  
- +  Group theory methods (e.g., profinite groups) in quantum computing 
-Analytic functions in quantum computing  +  Lattices, topology and logic in the context of quantum computing 
- +  Time-frequency analysis, wavelets, applications to large data analysis. 
-Group theory methods (e.g., profinite groups) in quantum computing +  Mesoscopic Josephson devices
- +
-Lattices, topology and logic in the context of quantum computing +
- +
-Time-frequency analysis, wavelets, applications to large data analysis. +
- +
-Mesoscopic Josephson devices+
  
  
  
 ===== Wigner-specific research ===== ===== Wigner-specific research =====
 +(selection)
  
-Earnshaw RA, Lei C, Li J, Mugassabi S and Vourdas A (2012)"Large scale data analysis using the Wigner functionPhysica A391 2401-2407+  * Earnshaw RA, Lei C, Li J, Mugassabi S and [[Apostol Vourdas]], [[https://www.sciencedirect.com/science/article/pii/S0378437111008958|Large scale data analysis using the Wigner function]], Physica A **391**, 2401-2407 (2012) 
- +  *[[Apostol Vourdas]], [[https://link.springer.com/article/10.1134/S1063778810020055|Wigner and Weyl functions for p-adic quantum mechanics]], Physics of atomic nuclei **73**, 237-241 (2010) 
-Vourdas A (2010): "Wigner and Weyl functions for p-adic quantum mechanicsPhysics of atomic nuclei73 237-241. +  G. Giakasa, L.K. Stergioulas, and [[Apostol Vourdas]], [[https://www.sciencedirect.com/science/article/pii/S002192909900216X|Time-frequency analysis and filtering of kinematic signals with impacts using the Wigner function: accurate estimation of the second derivative]], Journal Biomech. **33**, 567-574 (2000) 
- +  S. Chountasis, [[Apostol Vourdas]], and C. Bendjaballah, [[https://journals.aps.org/pra/abstract/10.1103/PhysRevA.60.3467|Fractional fourier operators and generalized Wigner functions]], Physical Review A **60**, 3467 (1999) 
-GIAKAS G, STERGIOULAS L and VOURDAS A (2000)"Time-frequency analysis and filtering of kinematic signals with impacts using the Wigner function: accurate estimation of the second derivativeJournal Biomech.33 567-574+  S. Chountasis, L. K. Stergioulas, and [[Apostol Vourdas]], [[https://www.tandfonline.com/doi/abs/10.1080/09500349908231397|Quantum filtering of noise in the Wigner function]], Journal Mod. Optics **46**, 2131-2134 (1999) 
- +  S. Chountasis and [[Apostol Vourdas]], [[https://journals.aps.org/pra/abstract/10.1103/PhysRevA.58.1794|Weyl and Wigner functions in an extended phase space formalism]], Physical Review A **58**, 1794-1798 (1998)
-HOUNTASIS S, VOURDAS A and BENDJABALLAH (1999)"Fractional fourier operators and generalized Wigner functionsPhysical Review, A60 3467-3473. +
- +
-CHOUNTASIS S, STERGIOULAS L.K and VOURDAS A (1999)"Quantum filtering of noise in the Wigner functionJournal Mod. Optics46 2131-2134+
- +
-CHOUNTASIS S and VOURDAS A (1998)"Weyl and Wigner functions in an extended phase space formalismPhysical Review, A58 1794-1798.+
  
  
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   * Professor in Computing, School of Electrical Engineering and Computer Science, University of Bradford, UK    * Professor in Computing, School of Electrical Engineering and Computer Science, University of Bradford, UK 
  
-===== Email ===== +
-  +
-[[A.Vourdas@Bradford.ac.uk]]+
  
 ===== Additional information ===== ===== Additional information =====
  
   * [[http://www.brad.ac.uk/ei/electrical-engineering-and-computer-science/staff-profiles/profile/?u=avourdas|University Profile]]   * [[http://www.brad.ac.uk/ei/electrical-engineering-and-computer-science/staff-profiles/profile/?u=avourdas|University Profile]]
apostol_vourdas.txt · Last modified: 2020/03/07 11:15 by weinbub
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