PAUL BUSCH | BOB COECKE | ANDREAS DÖERING | DAGOMIR KASZLIKOWSKI | KARL SVOZIL
daGOMIR KASZLIKOWSKI

 

 

 

 

Assistant Professor

Centre for Quantum Technologies

National University of Singapore

 

http://www.quantumlah.org/content/view/71/95/

 

 

Qualifications:

  • 1990-93: student at the department of Technical Physics and Applied Mathematics of Polytechnic of GdaŽnsk (In 1993 moved to department of Mathematics and Physics of University of GdaŽnsk)
  • 1993-1996: student of theoretical physics, University of GdaŽnsk (MSc in theoretical physics: 31.05.1996, supervisor Dr Marek ˙ Zukowski); 1995: ”Scholarship for outstanding students of University of GdaŽnsk” awarded by the President of GdaŽnsk
  • Since 1996 the PhD student of Dr Marek ˙ Zukowski (student in ”Studium Doktoranckie z Fizyki” )
  • 1999: “Scholarship for outstanding PhD students of University of GdaŽnsk” awarded by Foundation for University of GdaŽnsk
  • 2000: “Scholarship for young scientists” awarded by Foundation for Polish Science
  • 2000: PhD degree in physics at University of Gdansk ( PhD dissertation ”Nonclassical Phenomena in Multiphoton Interferometry: More Stringent Tests Against Local Realism” supervised by Dr Marek Zukowski, prof. UG)
  • 01.02.2001 - 19.04.2004: Research Fellow in the Department of Physics at National University of Singapore
  • 20.04.2004 - present: Assistant Professor in the Department of Physics at National University of Singapore

 

 

Research Interest:

  • It has been recently shown that large systems in thermal equlibrium can be in entangled states even for large temperatures. I am interested in how entanglement, which is one of the most fundemental properties of quantum objects, can affect thermodynamic properties of such systems (magnetic susceptibility, heat capacity etc.).
  • I currently investigate a connection between entanglement and phase transitions (Bose-Einstein condensation, quantum phase transitions etc.).
  • I am also interested how to detect and quantify entanglement in quantum systems where the effects of Bose-Einstein and Fermi-Dirac statistics cannot be neglected (entanglement in Fock space).

 

 

 

Selected Publications

  • Violations of local realism for two entangled N-dimensional systems are stronger than for two qubits, Dagomir Kaszlikowski, Piotr Gnacinski, Marek Zukowski, Wieslaw Miklaszewski and Anton Zeilinger, Phys. Rev. Lett. 85, 4418 (2000).
  • Quantum cryptography based on qutrit Bell inequalities, Dagomir Kaszlikowski, D. K. L. Oi, Matthias Christandl, Kelken Chang, Artur Ekert, L. C. Kwek, and C. H. Oh Phys. Rev. A 67, 012310 (2003).
  • Information-Theoretic Approach to Single-Particle and Two-Particle Interference in Multipath Interferometers, Dagomir Kaszlikowski, Leong Chuan Kwek, Marek Zukowski, and Berthold-Georg Englert Phys. Rev. Lett. 91, 037901 (2003).
  • Tomographic Quantum Cryptography: Equivalence of Quantum and Classical Key Distillation, Dagmar Brus, Matthias Christandl, Artur Ekert, Berthold-Georg Englert, Dagomir Kaszlikowski, and Chiara Macchiavello Phys. Rev. Lett. 91, 097901 (2003).
  • Coherent eavesdropping attacks in tomographic quantum cryptography: Nonequivalence of quantum and classical key distillation, D. Kaszlikowski, J. Y. Lim, L. C. Kwek, and B.-G. Englert, Phys. Rev. A 72, 042315 (2005).