Richard MacKenzie
- Professeur titulaire
-
Faculté des arts et des sciences - Département de physique
Complexe des sciences office B-4011
Web : Site web de l’unité de recherche
Web : Autre site web
Web : Autre site web
Affiliations
- Membre – GPP — Groupe de physique des particules
- Membre – INTRIQ — Institut transdisciplinaire d'information quantique
Education Programs
- Fundamental and Applied Sciences Information and Communication Technologies
- Fundamental and Applied Sciences Information and Communication Technologies
- Information and Communication Technologies Fundamental and Applied Sciences
- Fundamental and Applied Sciences
- Fundamental and Applied Sciences
- Fundamental and Applied Sciences
- Fundamental and Applied Sciences
- Fundamental and Applied Sciences
- Fundamental and Applied Sciences
- Fundamental and Applied Sciences
- Fundamental and Applied Sciences
- Fundamental and Applied Sciences
- Fundamental and Applied Sciences
- Teaching and Education Sciences
- Teaching and Education Sciences Fundamental and Applied Sciences
- University Preparatory Programs
- Teaching and Education Sciences
Courses
- PHY1441 Électromagnétisme
- PHY1651 Mécanique classique 1
- PHY2345 Outils théoriques de la physique
Areas of Expertise
- Physics of elementary particles and fields
- Mathematical methods in physics
- Fractional statistics sytems (anyons, etc.)
- Theory of quantized fields
- Quantum mechanics
- Solitons
- Symmetry and conservation laws
- Spontaneous breaking of gauge symmetries
- Classical and semiclassical techniques in gauge field theories
- Extended classical solutions, cosmic strings, domains walls, textures
- Semiclassical theories and applications of quantum mechanics
- Decoherence, open systems, quantum statistical methods
Theoretical particle physics; quantum field theory and applications in particle physics, cosmology, condensed matter physics, etc. Semiclassical methods, topology in field theory, solitons, instantons. Quantum information.
Responsabilities and outreach Expand all Collapse all
Student supervision Expand all Collapse all
Cycle : Master's
Grade : M. Sc.
Cycle : Master's
Grade : M. Sc.
Cycle : Master's
Grade : M. Sc.
Cycle : Master's
Grade : M. Sc.
Research projects Expand all Collapse all
Quantum theory and applications Projet de recherche au Canada / 2020 - 2026
Qubits as sensitive probes for technology - INTRIQ Projet de recherche au Canada / 2020 - 2025
Clean qubits in dirfv channels / Institut trandisciplinaire d'information quantique / Regroupement stratégique Projet de recherche au Canada / 2017 - 2023
QUANTUM THEORY AND APPLICATIONS Projet de recherche au Canada / 2014 - 2022
Supplément COVID-19 CRSNG_Quantum theory and applications Projet de recherche au Canada / 2020 - 2021
QUANTUM THEORY AND APPLICATIONS Projet de recherche au Canada / 2011 - 2015
QUANTUM THEORY AND APPLICATIONS Projet de recherche au Canada / 1994 - 2015
REGROUPEMENT STRATEGIQUE - INSTITUT TRANSDISCIPLINAIRE D'INFORMATIQUE QUANTIQUE (INTRIQ) Projet de recherche au Canada / 2011 - 2014
Publications Expand all Collapse all
Path integration and perturbation theory with complex Euclidean action
Garnik Alexanian, R. MacKenzie, M. B. Paranjape, J. Ruel
Phys. Rev. D77:105014, 2008
Phase transitions in 3-dimensional non-self-intersecting lattice loop gases in the Abelian Higgs model
F. R. Nebia, R. MacKenzie, M. B. Paranjape
Submitted to Phys Rev Lett (Nov 2007).
Validity of the Adiabatic Approximation
R. MacKenzie, A. Morin-Duchesne, H. Paquette and J. Pinel
Phys. Rev. A76: 044102 (2007)
The field theoretic description of the abelian and non-abelian Josephson effect
F. Paul Esposito, L.-P. Guay, R. MacKenzie, M. B. Paranjape and L.C.R.Wijewardhana
Phys. Rev. Lett. 98, 241602 (2007)
Q-balls in Maxwell-Chern-Simons theory
M. Deshaies-Jacques and R. MacKenzie
Phys. Rev. D74: 025006, 2006
A new perturbative approach to the adiabatic approximation
R. MacKenzie, E. Marcotte, H. Paquette
Phys Rev A 73, 042104, 2006
Comment on "On the Electric Charge Quantization from the Aharonov-Bohm Potential"
R. MacKenzie, H. Paquette, J. Pinel, P.-L. Roussel
Interaction between vortices in models with two order parameters
R. MacKenzie, M.-A. Vachon, U. Wichoski
Phys. Rev. D. 67, 105024, 2003.
Magnetic properties of SO(5) superconductivity
M. Juneau, R. MacKenzie, M.-A. Vachon
Ann. Phys. 298 (2002) 421-434
From Q-Walls to Q-Balls
R. B. MacKenzie and M. B. Paranjape
JHEP 08(2001)003
Path Integral Methods and Applications
Richard MacKenzie
Lectures given at Rencontres du Vietnam: VIth Vietnam School of Physics, Vung Tau, Vietnam, 27 December 1999 - 8 January 2000.
A microscopic derivation of the SO(5)-symmetric Landau-Ginzburg potential
C.P. Burgess, J.M. Cline, R. MacKenzie and R. Ray
Phys. Rev. B57 (1998) 8549-8559
Equivalence of the grand canonical partition functions of particles with different statistics
S. Chaturvedi, R. MacKenzie, P.K. Panigrahi and V. Srinivasan
Mod. Phys. Lett. A12 (1997) 1095-1099
Altered Stats: Two anyons via path integrals for multiply connected spaces
P. Girard and R. MacKenzie
Phys. Lett. A207, 17-22, 1995
Remarks on gauge vortex scattering
R. MacKenzie
Phys. Lett. B352, 96-98, 1995
On the Coleman-Hill Theorem
A. Khare, R. MacKenzie and M.B. Paranjape
Phys. Lett. B343, 239-243, 1995
Additional Information
- 14-10-2015 - Un Nobel de physique pour le Canada ou pourquoi financer la recherche est fondamental!
- 30-10-2013 - Réflexions sur le Prix Nobel de physique 2013 par Manu Paranjape, professeur au département de physique de l'Ude
- 12-12-2012 - Richard MacKenzie reçoit le Prix d’excellence en enseignement de la Faculté des arts et des sciences pour l’anné
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