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faculty
Renuka Rajapakse, PhD
Associate Teaching Professor
Physics
Contact
508-999-8360
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Science & Engineering 203E
Education
| 2011 | University of Connecticut | PhD |
| 2005 | University of Connecticut | MS |
| 1999 | University of Peradeniya, Sri Lanka | BSc |
Teaching
- Mathematical Methods
- Electromagnetic Theory
- Mechanics
- Quantum Optics
Teaching
Courses
A team-based learning experience that gives students the opportunity to synthesize prerequisite course material and to conduct real-world analytics projects using large data sets of diverse types and sources. Students work in independent teams to design, implement, and evaluate an appropriate data integration, analysis, and display system. Oral and written reports and ethical aspects are highlighted.
A laboratory course that accompanies PHY 102. Experiments provide students with a solid understanding of basic DC circuit concepts and an introduction to AC circuits.
Seminar on fundamental topics and new discoveries in physics. Also an introduction to the physics major program and faculty research.
Seminar on fundamental topics and new discoveries in physics. Also an introduction to the physics major program and faculty research.
A calculus-based introduction to the concepts of electricity and magnetism. Study of electric and magnetic fields, electric potential, capacitance and inductance, elementary circuits, and electromagnetic oscillations. Laboratory experiments provide students with a solid understanding of basic DC circuit concepts and an introduction to AC circuits.
A calculus-based introduction to the concepts of electricity and magnetism. Study of electric and magnetic fields, electric potential, capacitance and inductance, elementary circuits, and electromagnetic oscillations. Laboratory experiments provide students with a solid understanding of basic DC circuit concepts and an introduction to AC circuits.
A calculus-based introduction to the concepts of electricity and magnetism. Study of electric and magnetic fields, electric potential, capacitance and inductance, elementary circuits, and electromagnetic oscillations. Laboratory experiments provide students with a solid understanding of basic DC circuit concepts and an introduction to AC circuits.
A calculus-based introduction to the concepts of electricity and magnetism. Study of electric and magnetic fields, electric potential, capacitance and inductance, elementary circuits, and electromagnetic oscillations. Laboratory experiments provide students with a solid understanding of basic DC circuit concepts and an introduction to AC circuits.
An introduction to astronomy that describes the advancement of astronomical knowledge and surveys the contents, properties, and physical processes of the universe. Simple mathematics will be used. Evening observing sessions at the UMass Dartmouth Observatory will be offered. The course is designed for non-science majors.
An introduction to astronomy that describes the advancement of astronomical knowledge and surveys the contents, properties, and physical processes of the universe. Simple mathematics will be used. Evening observing sessions at the UMass Dartmouth Observatory will be offered. The course is designed for non-science majors.
Teaching
Online and Continuing Education Courses
An introduction to astronomy that describes the advancement of astronomical knowledge and surveys the contents, properties, and physical processes of the universe. Simple mathematics will be used. Evening observing sessions at the UMass Dartmouth Observatory will be offered. The course is designed for non-science majors.
An introduction to astronomy that describes the advancement of astronomical knowledge and surveys the contents, properties, and physical processes of the universe. Simple mathematics will be used. Evening observing sessions at the UMass Dartmouth Observatory will be offered. The course is designed for non-science majors.
Register for this course.
An introduction to astronomy that describes the advancement of astronomical knowledge and surveys the contents, properties, and physical processes of the universe. Simple mathematics will be used. Evening observing sessions at the UMass Dartmouth Observatory will be offered. The course is designed for non-science majors.
Register for this course.
Research
Research activities
- Research Scientist, University of Connecticut
Research
Research awards
- $ 231,213 awarded by Office of Naval Research for UMassD MUST III: Quantum Computing and Control in Noisy Environments
Research
Research interests
- Quantum Optics
- Quantum Computation
- Atomic and Molecular Physics
- Computational Physics
Select publications
- J. Javanainen, R. Rajapakse (2019).
Light propagation in systems involving two-dimensional atomic lattices
Physical Review A, 100, 013616. - J. Javanainen, R. Rajapakse (2015).
Bayesian inference to characterize Josephson oscillations in a double-well trap
Physical Review A, 92, 023613. - R. Rajapakse, T. Bragdon, A.M. Rey, S.F. Yelin (2009).
Single photon nonlinearities and optical quantum computing using ensembles of polar molecules
Physical Review A, 80, 013810.
Additional links
Latest from Renuka
Mentioned in
- May 3, 2025 Jasmin Singh '25: Human-centered AI
- Mar 25, 2024 McCord Murray '24: The science of math