Началото

През 1911 г. в лабораторията на Ърнест Ръдърфорд е открито атомното ядро. Впоследствие редица нови открития показват, че започва изучаването на нови обекти, формиращи микросвета. Размерите и динамиката в този нов свят се оказват твърде различни от познатото и това налага разработване на съществено нови експериментални и теоретични методи за неговото изучаване.
Изследователи от различни лаборатории и университети започват работа за определяне свойствата на микрообектите и взаимодействията между тях. За наша гордост, още от самото начало на тази дейност, в нея се включват и български учени. Те поставят началото на българската ядрена физика.

През 1946 г. е създаден Физическият институт на Българската академия на науките. В рамките на този институт е обособена група, ръководена от проф. Е. Карамихайлова, която се занимава с изучаване на радиоактивността.

През 1956 г. е основан Обединеният институт за ядрени изследвания (ОИЯИ) в Дубна. България е страна-основател на този институт. Голяма група български физици заминават за Дубна, където получават квалификация в най-новите направления на ядрената физика.

През 1961 г. у нас е пуснат в експлоатация изследователският ядрен реактор ИРТ 2000.

През 1972 г. от Физическия институт на БАН се отделя голяма структура, която образува Института за ядрени изследвания и ядрена енергетика (ИЯИЯЕ).

През 1974 г. е пусната в експлоатация първата атомна електроцентрала в България.

През 1999 г. България става член на ЦЕРН (CERN – the European Organization for Nuclear Research).

Това са все знакови дати, които показват израстването на ядрено-физическата колегия в БАН, а защо не и в България.

Mikhail Nikolov Stoilov

Scientist

Personal Data

Occupations:	Assistant Professor, Ph.D.
Office Address:	Laboratory of Mathematical Modelling in Physics Institute of Nuclear Research and Nuclear Energy, Bulgarian Academy of Sciences, 72 Tzarigradsko Shaussee, 1784 Sofia, Bulgaria
Office Phone:	(+359) 2 97-95-5631
Office Fax:	(+359) 2
E-mail:	Този имейл адрес е защитен от спам ботове. Трябва да имате пусната JavaScript поддръжка, за да го видите.
Home Address:	Mladost 2, bl. 219b, entr. A Sofia 1799, Bulgaria
Home Phone:	(+359) 2
Birth Date:	15 February 1962
Birth Place:	Sofia, Bulgaria
Citizenship:	Bulgarian
Marital Status:	Married

Professional Data

Education

Institution	Dates	Major	Degree (Year)
Inst. Nucl. Research & Nucl. Energy, Sofia	1988-1991	High Energy Physics	Ph.D. (1994)¹
Sofia University "St. Kliment Ohridsky"	1979-1984	Physics	M.S. (1984)²

¹ Supervisor: D.Ts. Stoyanov, D.Sc.
Field: Theoretical High Energy Physics
Dissertation Topic: Quantization of Some Exactly Solvable Extended Objects (Strings and Arbitrary-Dimensional Membranes).
Methods: BRST quantization, Algebraic cohomology, Static potential, Path integration.

² Diploma Summa Cum Laude
Field: Nuclear and Elementary Particle Physics.
Some of the advanced coursesincluded: Quantum Field Theory, Quantum Electrodynamics, Theory of Electroweak Interaction, General Relativity, Two courses in Experimental and Theoretical NuclearPhysics, Dosimetry and Radiation Shielding, Radio Electronics, Nuclear Electronics, Thermodynamics and Statistical Physics, Theoretical Fluid Mechanics, Quantum Mechanics, Group Theory, Solid State Physics, Atomic Physics, Astrophysics and Astronomy, Numerical Methods, etc.}

Experience

General Quantum Field Theory, String Theory, Quantum Electrodynamics, Molecule Interactions.
Electronics and Nuclear Measurement Equipment.
Numerical Methods, Monte Carlo Simulations, FORTRAN programming.

Languages

English, Russian

Societies

Interests

Scientific Works

Books

Thesis

Papers

L. Sheherov, M. Stoilov, D. Delcheva, G. Stefanov and Ya. Prodanov, Gamma emitters in the environment in south-western Bulgaria during the 1985-86 period, In the proceedings of the conference "Consequences from the Chernobyl nuclear power plant meltdown and activities for enhancing the preparedness for behaviour in increased radioactivity", Sofia, 1987, 98-131 (in Bulgarian)
L. Sheherov, M. Stoilov, D. Delcheva, G. Stefanov and Ya. Prodanov, Artificial gamma emitters and radiational status in environment sampling from Bulgarian Danube-Black Sea territorial complex during 1985-1986}, In the proceedings of the conference "Consequences from the Chernobyl nuclear power plant meltdown and activities for enhancing the preparedness for behaviour in increased radioactivity", Sofia, 1987, 74-97 (in Bulgarian)
L. Sheherov, M. Stoilov, D. Delcheva, G. Stefanov and Ya. Prodanov, Instrumental methods for determining the content of artificial gamma emitters in the food, In the proceedings of the conference "Consequences from the Chernobyl nuclear power plant meltdown and activities for enhancing the preparedness for behaviour in increased radioactivity", Sofia, 1987, 131-161 (in Bulgarian)
Ya. Prodanov, L. Sheherov, M. Stoilov, D. Delcheva and G. Stefanov, Assessment of the radioactive pollution in south-western Bulgaria after the Chernobyl disaster, Proceedings of the symposium "Radiational damages and radiational studies", part II, Sofia, 1988, 39-51 (in Bulgarian)
M. N. Stoilov and D. Tz. Stoyanov, A model of p-branes with closed constraint algebra, J. Phys. A: Math. Gen. 23 (1990) 5925
P. Bozhilov and M. Stoilov, Critical Dimension for a Restricted Bosonic String, Phys. Lett. B293 (1992) 335
M. Stoilov and R. Zaikov, Quantum Effects for Generalised Chern-Simons Type Bosonic Particle and String, Mod. Phys. Lett. A8 (1993) 313
M. Stoilov and R. Zaikov, A Chern-Simons Like String with W-Symmetry, Lett. Math. Phys. 27 (1993) 155
M. Stoilov and R. Zaikov, A U(1) Kac--Moody Model Coupled to 2D-Gravity, Mod. Phys. Lett. A8 (1993) 2687
M. Stoilov, Critical Dimension for a p-brane with Second Class Constraints, Phys. Lett. {\bf B316} (1993) 80
M. Stoilov and D. Stoyanov, A String Model with One Physical State, Mod. Phys. Lett. A9 (1994) 1345
M. Stoilov and R. Zaikov, Central Extension of a New W_infty-Type Algebra, Mod. Phys. Lett. A11 (1996) 877
M.N. Stoilov, On the Connection between Pauli-Villars and Higher Derivative Regularizations, Ann. Physik 7 (1998) 1
M.N. Stoilov, Comment on `Non-Abelian Bosonization and Higher Spin Symmetries', Mod. Phys. Lett. A13 (1998) 1327-1330
A.D. Mitov, M.N. Stoilov and D.Ts. Stoyanov, On the Bound States in a Nonlinear Quantum Field Theory of a Spinor Field with Higher Derivatives, Int. J. Mod. Phys. A14 (1999) 1651-1662
M.N. Stoilov, On the invariant regularization of the Standard model, Phys. Lett. B457 (1999) 311
D. Bakalov, M. Stoilov, E. Tchoukova, B. Jeziorski, T. Korona, K. Szalewicz, Density effects in antiprotonic helium, (2000)
E. Christova, E. Ginina, M. Stoilov, Supersymmetry through CP violation in $H^\pm \to W^\pm h^0$, JHEP 0311 (2003) 027
M.N. Stoilov, Canonical approach to Lagrange multipliers, QTS-4 (2005) v.2 540
M. Stoilov, Duality between constraints and gauge conditions Ann.Phys.16:529-542,2007
Michail Stoilov, Note on the structure of constraint algebras arXiv:hep-th/0611100
Michail Stoilov, Fermions as U(1) instantons, CEJP 5(4) (2007) 507-515
M.N. Stoilov, On the structure of the constraint algebra for systems whose gauge transformations depend on higher order time derivatives of the gauge parameters, LT-7 (2007) 473, MPL A 23 (2008) 815-823
M.N. Stoilov, U(2) instantons and leptons, arXiv:0906.2301
M.N. Stoilov, Fermions from the gauge models ground state, arXiv:1012.0283
M.N. Stoilov, Hamiltonian analysis of the proposal by Chen et. al., PRL 100 (2008) 232002, arXiv:1011.5617
Changrim Ahn, Marian Stanishkov, Mihail Stoilov, Higher Equations of Motion in N=2 Superconformal Liouville Field Theory, Phys.Lett.B695:501-506,2011
M.N. Stoilov, Semiclassical approach to the line shape, CJP 89 (2011) 135-140