Professional Experience
2015-now,Huazhong University of Science and Technology, Professor
2013 - 2016, Institute of Applied Mathematics, Russian Academy of Science, Moscow Habilitation program (preparation to full Professorship) Mathematical modelling of magneto gas dynamics problems, Supercomputers and parallel algorithms
2012 – 2014, Deutsches Elektronen-Synchrotron, DESY, Hamburg
Research Fellow
Mathematical simulation of the International Linear Collider Physics and Detector
Experimental data Analysis of CDF experiment, FNAL, B physics group
Development of the Semiconductor technology -novel type of Photodetector – Silicon Photomultiplier,
Development and Study of scintillator/Silicon Photomultiplier detector systems
Mathematical modelling and experimental study of new generation Positron Emission Tomography
Experimental data analysis of OLYMPUS experiment, Analysis of Two Photon contribution in ep elastic scattering.
2010 LPNHE, Universite Pierre et Marie Curie/IN2P3-CNRS, Paris (Grant of the EUDET project)
Mathematical simulation and test beam studies for the InternationalLinear Collider Physics and Detector,
Experimental data Analysis of CDF experiment, FNAL, B physics group
2009 Deutsches Elektronen-Synchrotron, DESY, Hamburg
Mathematical simulation of the International Linear Collider Physicsand Detector
Selected Publications
[1] N. D’Ascenzo, V. Saveliev, L. Wang, Q. Xie, Analysis of photon statistics with Silicon Photomultiplier, JINST, 10, C08017, 2015.
[2] B. N. Chetverushkin, N. D’Ascenzo, V. Saveliev, On an algorithm for solving parabolic and elliptic equations, Comput. Math. Math. Phys., 55, 1290-1297, 2015
[3] B. N. Chetverushkin, N. D’Ascenzo, V. Saveliev, Three-Level Scheme for Solving Parabolic and Elliptic Equations, Dokl. Math. 91, 341-342, 2015
[4] B. N. Chetverushkin, N. D’Ascenzo, S. Ishanov, V. Saveliev, Hyperbolic type explicit kinetic scheme of magneto gas dynamics for high performance computing systems, Rus. J. Numer. Anal. Math. Model. 30, 27-36, 2015
[5] B. N. Chetverushkin, N. D’Ascenzo, V. Saveliev, Kinetically consistent magnetogasdynamics equations and their use in supercomputer computations, Dokl. Math. 90, 495-498, 2014
[6] N. D’Ascenzo, P.S. Marrocchesi, C. S. Moon, V. Saveliev, A. Savoy-Navarro, Silicon avalanche pixel sensor for high precision tracking, JINST 9 C03027, 2014
[7] N. Dascenzo, V. Saveliev, L. Wang, Q. Xie, Study of Silicon Photomultipliers and applications, Proceedings of SPIE 9114, 91140N, 2014
[8] B. Chetverushkin, N. D’Ascenzo, V. Saveliev, Novel kinetic consistent 3D MHD algorithm for high performance computing systems, in Computational methods for coupled problems in science and engineering, 978-988, 2013
[9] The CDF Collaboration, Measurement of the Bottom-Strange Meson Mixing Phase in the Full CDF Data Set, Phys. Rev. Lett. 109, 171802, 2012
[10] N. D’Ascenzo, V. Saveliev, Silicon photomultipliers for the medical imaging systems, Nucl. Instr. Meth. Phys. Res. A, 695, 265-267, 2012
[11] The CALICE collaboration, Construction and commissioning of the CALICE analog hadron calorimeter prototype, JINST, 5, P05004, 2010
[12] N. D’Ascenzo, A. Eggemann, E. Garutti, A. Tadday, Application of the Micro Pixel Photon Counter to calorimetry and PET, Nuovo Cimento C, 30, 463-472, 2007
[13] Herbert D.J., N. D’Ascenzo et al., SiPM as a potential photodetector for scintillator readout, Nucl. Instr. Meth. Phys. Res. A, 567, 356-359, 2006
[14] Herbert D.J., Saveliev V., Belcari N., D’Ascenzo N. et al. , First results of scintillator readout with silicon photomultiplier, IEEE Trans. Nuc. Sci. 53, 389-394, 2006