Matej Pavšič Explained

Matej Pavšič is a Slovenian theoretical physicist. During his work at Jožef Stefan Institute he has investigated mirror particles, conformal relativity, Kaluza-Klein theories, brane world scenarios, Clifford algebras and relativity in Clifford spaces.

Life and career

Matej Pavšič was born on 24 February 1946 in Ljubljana, Slovenia, then Yugoslavia. He attended the classical division of the 2nd Gymnasium of Ljubljana and studied physics at the University of Ljubljana. After graduating, he started working at Jožef Stefan Institute in Ljubljana and received his master's degree in 1975. In 1974 he received the prize of the Boris Kidrič Fund, Ljubljana.^[1] He then spent a year at the Institute of Theoretical Physics in Catania, Italy, where he worked with Erasmo Recami and Piero Caldirola.^[2] Under their supervision, he completed his doctoral thesis, which he later defended at the University of Ljubljana.^[3] He regularly visited the International Centre for Theoretical Physics (ICTP) in Trieste, where he collaborated with Asim O. Barut,^[4] mainly on a model of the spinning particle in the presence of a gravitational field, and also on charged membranes. Matej Pavšič also worked with the mathematical physicist Waldyr Rodrigues Jr.^[5] who invited him in 1993 to spend a year as a visiting professor at the Institute for Applied Mathematics (IMMEC) in Campinas, Brazil. There he studied geometric calculus based on Clifford algebras and related topics. For his work he became in 2008 a member of the advisory board of International Conferences for Clifford Algebras (ICCA) and presented an invited talk at ICCA8.^[6]

Main contributions

Mirror particles

In 1974 Pavšič considered a theory according to which nature is exactly symmetric with respect to space inversion, provided that one postulates the existence of mirror particles and mirror interactions among them.^[7] The idea of mirror particles was introduced in 1956 by Lee and Yang in their paper on parity non conservation, and was in 1966 further elaborated by Yu. Kobzarev, L.B. Okun and I.Ya. Pomeranchuk within the context of a CP invariant theory. Nowadays, the so-called exact parity models are considered in many works as an explanation of dark matter.^{[8] [9]}

Spacetime as a membrane in higher dimensions – brane world

Pavšič also investigated the idea that spacetime is a 4-dimensional membrane embedded in a higher dimensional space. He first explained this idea in its rough contours in 1981,^[10] and later in more elaborated works^[11]

Notes and References

1. Web site: POROČILO O DELU ZA LETO 1974 . ARRS.
2. Piero Caldirola, Matej Pavšič and Erasmo Recami. Unified Theory of Strong and Gravitational Interactions. Nuovo Cim.B 48 (1978) 205.
3. Un dottore di ricerca jugoslavo “nato” all'università di Catania: Relatori sono stati i professori Erasmo Recami e Piero Caldirola. La Sicilia, March 29, 1979 Page 17.
4. Quantization of the Classical Relativistic Zitterbewegung in the Schrodinger Picture. Class.Quant.Grav. 4 (1987) L131
5. Matej PavsicErasmo Recami, Waldyr A.Rodrigues Jr., G.Daniele Maccarrone, and Fabio Raciti. Spin and electron structure. Phys. Lett. B 318 (1993) 481-488
6. http://www.ime.unicamp.br/%7Eicca8/ 8h International Conference on Clifford Algebras and Applications
7. Matej Pavšič. External inversion, internal inversion and reflection invariance. Int.J.Theor.Phys. 9 (1974) 229-244.
8. Kalliopi Petraki and Raymond R. Volkas. Review of asymmetric dark matter. Int. J. Mod. Phys. A 28 (2013) 1330028.
9. R. Foot. Mirror dark matter: Cosmology, galaxy structure and direct detection. Int.J.Mod.Phys.A 29 (2014) 143001
10. M. Pavšič. Towards Understanding Quantum Mechanics, General Relativity and the Tachyonic Causality Paradoxes. Lett.Nuovo Cim. 30 (1981) 111.
11. M. Pavšič. The Embedding model of induced gravity with bosonic sources. Found.Phys. 24 (1994) 1495-1518.
12. M. Pavšič. The Landscape of Theoretical Physics: A Global View; From Point Particles to the Brane World and Beyond, in Search of a Unifying Principle. Kluwer Academic, 2001.
13. M. Pavšič. How the geometric calculus resolves the ordering ambiguity of quantum theory in curved space. Class.Quant.Grav. 20 (2003) 2697-2714.
14. G.W. Gibbons, C.N. Pope and Sergey Solodukhin. Higher Derivative Scalar Quantum Field Theory in Curved Spacetime. Phys.Rev.D 100 (2019) 10, 105008.
15. Bassett . Bruce . Book Review: The Landscape of Theoretical Physics. A Global View.By Matej Pavsic, 367p. Kluwer Academic Publishers, Dordrecht 2001. EUR190.00 USD175.00 GBP120.00, ISBN 0792370066 . General Relativity and Gravitation . March 2003 . 35 . 3 . 503–504 . 10.1023/A:1022338420525 .
16. Borut Bajc: Vesolje na membrani. Book Review. Delo, December 19, 2001. Page 19.
17. Web site: New book "Stumbling Blocks Against Unification" . Universität Frankfurt . 3 May 2020.
18. M. Pavšič. Einstein's Gravity From a First Order Lagrangian in an Embedding Space, Phys.Lett.A 116 (1986) 1-5 arXiv: gr-qc/0101075 [gr-qc<nowiki>]]^[11] and the book.^[12]

    Clifford algebras and Clifford spaces

    Since 1992 Pavšič became interested in Clifford algebras as a useful tool for geometry and physics. Among other things, he showed^[13] that the geometric calculus based on Clifford algebras resolves the ordering ambiguity of operators in curved spaces. Pavšič also found that under space inversion a geometric spinor (an element of a Clifford algebra) becomes a mirror particle experiencing mirror gauge interactions.

    Higher derivative theories and negative energies

    Following the important insights of several authors, Pavšič has found that in the presence of physically realistic interaction potentials, bounded from below and from above, the systems with negative energies are stable. As an example, he studied the Pais-Uhlenbeck oscillator in the presence of a bounded interaction term. The Pais-Uhlenbeck oscillator is a prototype of a higher derivative theory, and the demonstration of its stability indicates that higher derivative gravity is a physically viable theory^[14]

    Books

    • The Landscape of Theoretical Physics: A Global View; From Point Particles to the Brane World and Beyond, in Search of a Unifying Principle. Kluwer Academic, 2001.^{[15] [16]}
    • Stumbling Blocks Against Unification. World Scientific, 2020.^[17]

    External links

    ]

19. M. Pavšič. On the Quantization of Gravity by Embedding Space-time in a Higher Dimensional Space. Class. Quant. Gravity 2 (1985) 869 arXiv: 1403.6316 [gr-qc<nowiki>]]^[11]