Draft:Juris Svenne

Juris Pētēris Svenne (14 February, 1939 – 25 May, 2024) was a Latvian-Canadian physicist. In 2001 he was elected to the Latvian Academy of Science.

Education

 * Leaside High School (General Education) 1958
 * University of Toronto (B.A.Sc., Engineering Physics) 1962
 * Massachusetts Institute of Technology (Ph.D., Theoretical Physics) 1965

Post-Doctoral Positions

 * Massachusetts Institute of Technology (1965-1966)
 * Niels Bohr Insitute (1966-1968)
 * Queen's University (Summer 1968)
 * Institut National de Physique Nucléaire (1968-1969)

Work as a Professor
Juris Svenne began work as an Assistant Professor at the University of Manitoba in 1969. In 1980, he became a Full Professor in the Physics Department. From 1987-1988 Juris was Associate Head of the Department of Physics, then from 1989-1994 he held the position of Associate Dean of Science. Finally, from 1 July - 31 Dec 1991, he was Acting Dean of Science.

Juris Svenne was a member of the Winnipeg Institute for Theoretical Physics. He was a doctoral advisor for 3 Ph.D. students, and one M.Sc. student. After retiring from his work as a professor at the University of Manitoba in 2004, Juris was appointed Senior Scholar in the Department of Physics and Astronomy, where he remained active in research.

List of Publications

 * Non-localities in nucleon-nucleus potentials and their effects in nucleon-nucleus scattering..
 * Particle-unstable and weakly-bound nuclei with a Sturmian approach that preserves the Pauli principle.
 * Collective-coupling analysis of spectra of mass-7 isobars: 7He, 7Li, 7Be, 7B.
 * Predicting narrow states in the spectrum of a nucleus beyond the proton drip line.
 * Low-energy neutron-12C analyzing powers: results from a multichannel algebraic scattering theory.
 * Comparison between two methods of solution of coupled equations for low-energy scattering
 * Compound and quasi-compound states in low-energy scattering of nucleons protons from 12C.
 * Role of the Pauli principle in collective-model coupled-channel     calculations.
 * An    algebraic solution of the multichannel problem applied to low energy     nucleon-nucleus scattering.
 * Three-Body    Dynamics in One Dimension: A Test Model for the Three-Nucleon System with     Irreducible Pionic Diagrams.
 * Practical    Approximation Scheme for the Pion Dynamics in the Three-Nucleon System.
 * Spin    Observables for Pion Production from pd Collisions.
 * Spin    Observables for the p+d<-->p+t     reaction around the D resonance.
 * A    Meson-Exchange Isobar Model for the p+d<-->p+p     reaction.
 * Analysis    of Compound and Quasi-Compound Resonances in a Multi-Channel, Finite-Rank     Model.
 * Pion    absorption on 3He. II: Antisymmetrization and angular     decomposition of the Faddeev-based amplitude.
 * Re-examination    of the pNNN-NNN problem.
 * Evidence    for Three-Body Forces on p-d Breakup at 25 MeV ?
 * np    Elastic Scattering Analyzing Power Characteristics at Intermediate     Energies.
 * Resonances    and Time-Delay in Three-Body Scattering.
 * Charge    Symmetry Breaking in np Elastic Scattering at 477 MeV.
 * Form    Factors of Finite-Rank Potentials in Phenomenological Calculations.
 * Proton    Target Polarization Measured with a Polarized Neutron Beam at 477 MeV.
 * Test    of Charge Symmetry in Neutron-Proton Scattering at 477 MeV.
 * Charge-Symmetry    Breaking in Neutron-Proton Scattering: Isospin-Mixing Parameter.
 * Spline-Galerkin    solution of integral equations for three-body scattering above break-up.
 * Cluster    Expansion for Three-Body Scattering above Breakup.
 * Detection    Equipment for a Test of Charge Symmetry in n-p Elastic Scattering.
 * The    Neutron Beam Facility at TRIUMF.
 * Possible    Evidence for Sensitivity to the Two-Body Tensor Force in the Reaction d +     p --> p + p + n..
 * Cluster    Expansion, Multichannel Scattering, and the Optical Potential.
 * Three-body    Calculations of Elastic Scattering and Stripping of Deuterons on 16O.
 * A    Relation Between Average Kinetic Energy and Mean-square Radius in Nuclei.
 * Proton-deuteron    Break-up Cross Sections in Collinear Geometry at 28.6 MeV.
 * Fourteen    Years of Self-Consistent Field Calculations: what has been learned ?
 * The    Spin-Orbit Force and the Deformation of 12C.
 * Interpretation    of Inversions of Single-Particle Levels in Self-Consistent Field Theories.
 * A    Variational Calculation of Light Nuclei using Nearly-Orthogonal Functions.
 * How    Good is the Hartree-Fock Approximation for 16O ?
 * Compressibility    Under Deformation of the Nuclear Hartree-Fock Field.
 * The    Proton Densities in 40Ca and 48Ca in the     Hartree-Fock Approximation.
 * Isospin    Mixing of Hartree-Fock Solutions.
 * Octupole    Deformations in the 2s-1d Shell.
 * A    Coupled-Vibration Model for Even-Even Nuclei in the (s,d) Shell
 * Origin    of the Spin-Orbit Splitting in Nuclear Hartree- Fock Calculations.
 * E2    Transitions and the Intrinsic Structure of the 1f-2p Shell Nuclei.
 * Structure    of the Self-Consistent Solutions for Even- Even Nuclei in the 2p-1f Shell.
 * Unrestricted    Hartree-Fock Treatment of Finite Nuclei.
 * Saturation    in Hartree-Fock Calculations Using Density Dependent Forces with Hard     Cores.
 * Parity    Mixing in Nuclear Hartree-Fock Calculations.
 * Realistic    Potentials and Shell Model.
 * Hartree-Fock    Calculation for Finite Nuclei with Non-Local Two-Body Potential.
 * Generalized    Hartree-Fock Calculation with an Effective Interaction for Finite Nuclei.