Jens Paaske
  • NBB, Jagtvej 155

    2200 Copenhagen N

    Denmark

  • Universitetsparken 5, 2100 København Ø

  • Universitetsparken 5, bygn. D

    2100 København Ø

  • Source: Scopus
1998 …2024

Research activity per year

Personal profile

Short presentation

Jens Paaske is Associate Professor in theoretical condensed matter physics. He is part of the Condensed Matter Theory group (CMT) and the Center for Quantum Devices (QDev) at NBI, and he has been head of the Condensed Matter Physics section at NBI since 2017.

Primary fields of research

My research is mainly focused on quantum many-body theory for solid state systems, such as superconductors and magnets. A central theme in my research has been low-temperature electron transport through nanoscopic quantum dots and single molecule junctions, with a special emphasis on strong correlation effects in systems out of equilibrium. This work is done in close collaboration with the experimental groups, both at NBI, and abroad. My research also deals with strongly driven dissipative interacting many-body systems,  frustrated magnetism, quantum hybrid materials and analog quantum simulators.

Current research

Three current focus areas with a few recent representative publications:

Low-temperature quantum transport through Coulomb blockaded quantum dots and quantum impurities. Strong focus on localized magnetic moments, Kondo effects and Yu-Shiba-Rusinov states.

 

Nematic order and frustrated magnetism in classical and quantum Heisenberg magnets. Special focus on superconductor/magnet hybrids, and coexistence phases with inhomogeneous order (Cryptoferromagnetism vs. FFLO).

 

 

Quantum transport and phase transitions in strongly driven systems. What happens to ordered phases of matter when the system is strongly driven by intense time dependent fields? Will fx. magnetism be disrupted, or can long-ranged order and new phases of matter be stabilized by driving?

 

 

Teaching

Current teaching:

Electrodynamics and Waves (EM2)

Condensed Matter Theory II (CMT2)

 

Earlier teaching:

Linear Algebra & Classical Mechanics

Quantum Mechanics for nano-sciences

Analytical Mechanics

Condensed Matter Theory I

Condensed Matter Theory II

Advanced Topics in Condensed Matter Physics

Quantum Transport

Keywords

  • Faculty of Science
  • solid state physics
  • correlated electron transport
  • nano electronics
  • molecular electronics
  • spintronics
  • condensed matter theory

Collaborations and top research areas from the last five years

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