Halina Rubinsztein-Dunlop
教授
Australian Institute for Bioengineering and Nanotechnology
University of Queensland;Centre for Biophotonics and Laser Science, School of Physical Sciences, University of Queensland;Bose-Einstein Condensation laboratory, School of Mathematics and Physics, Faculty of Science, University of Queensland
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个人简介
Professor Halina Rubinsztein-Dunlop’s research interests are in the fields of atom optics, laser micromanipulation, nano optics, quantum computing and biophotonics.
She has long standing experience with lasers, linear and nonlinear high-resolution spectroscopy, laser micromanipulation, and atom cooling and trapping. She was one of the originators of the widely used laser enhanced ionisation spectroscopy technique and is well known for her recent work in laser micromanipulation. She has been also working (Nanotechnology Laboratory, Göteborg, Sweden) in the field of nano- and microfabrication in order to produce the microstructures needed for optically driven micromachines and tips for the scanning force microscopy with optically trapped stylus. Recently she led the team that observed dynamical tunnelling in quantum chaotic system. Additionally Prof. Rubinsztein-Dunlop has led the new effort into development of new nano-structured quantum dots for quantum computing and other advanced device related applications.
She has long standing experience with lasers, linear and nonlinear high-resolution spectroscopy, laser micromanipulation, and atom cooling and trapping. She was one of the originators of the widely used laser enhanced ionisation spectroscopy technique and is well known for her recent work in laser micromanipulation. She has been also working (Nanotechnology Laboratory, Göteborg, Sweden) in the field of nano- and microfabrication in order to produce the microstructures needed for optically driven micromachines and tips for the scanning force microscopy with optically trapped stylus. Recently she led the team that observed dynamical tunnelling in quantum chaotic system. Additionally Prof. Rubinsztein-Dunlop has led the new effort into development of new nano-structured quantum dots for quantum computing and other advanced device related applications.
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Alexander B Stilgoe,Anatolii V Kashchuk, Marie-Anne Balanant, Deborah Santangelo,Timo A Nieminen,Emilie Sauret,Robert Flower,Halina Rubinsztein-Dunlop
Biomedical optics expressno. 2 (2024): 656-671
Complex Light and Optical Forces XVII (2023)
arXiv (Cornell University) (2023)
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Optical Trapping and Optical Micromanipulation XX (2023)
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Optical Trapping and Optical Micromanipulation XIX (2022)
Molecular and Nano Machines V (2022)
FRONTIERS IN NANOTECHNOLOGY (2022)
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