Overview:
My research is in range of topics in quantum physics, largely from the perspective of quantum information theory.
The work can be divided into rough sub-topics (with overlap):
My research is in range of topics in quantum physics, largely from the perspective of quantum information theory.
The work can be divided into rough sub-topics (with overlap):
- Structural aspects of quantum theory, quantum algorithms and computation.
- Quantum thermodynamics and quantum resources.
- Many-body and quantum field theory topics.
Recent Selected Papers:
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- Energetic instability of passive states in thermodynamics,
Sparaciari, Jennings, Oppenheim, Nature Communications (2017) - Provable quantum advantage in randomness processing, Dale, Jennings, Rudolph, Nature Communications (2015) - Continuum tensor network field states, path integrals and symmetries, Jennings, Brockt, Haegeman, Osborne, Verstraete, New Journal of Physics (2015) - Quantum coherence, time-translation symmetry and thermodynamics, Lostaglio, Korzekwa, Jennings, Rudolph, Phys. Rev. X (2015). - Quantum Steering Ellipsoids, Jevtic, Pusey, Jennings, Rudolph, Phys. Rev. Lett. (2014). |
- Clock–Work Trade-Off Relation for Coherence in Quantum Thermodynamics,
Kwon, Jeong, Jennings, Yadin, Kim Phys. Rev. Lett. (2018). - Description of quantum coherence in thermodynamics requires constraints beyond free energy, Lostaglio, Jennings, Rudolph, Nature Communications (2015). - The WAY-theorem and the quantum resource theory of asymmetry, Ahmadi, Jennings, Rudolph, New Journal of Physics, (2013). - Distinct quantum states can be compatible with a single state of reality, Lewis, Jennings, Barrett, Rudolph, Phys. Rev. Lett. (2012). - Maximally and minimally correlated states attainable within a closed evolving system, Jevtic, Jennings, Rudolph, Phys. Rev. Lett. (2012). |
Other papers: Arxiv
