You searched for: atomic molecular biological and optical physics
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Atomic, molecular, biological and optical physics… Dr. Charles Woffinden completed his PhD in experimental physics at the University of York in… ozone, nitrogen dioxide, sulfur dioxide, formaldehyde, as well as aerosol and cloud properties. Key to…
Dr. Charles Woffinden completed his PhD in experimental physics at the University of York in 2010, under the supervision of Prof. Steve Tear. His doctoral research involved investigating the electronic and magnetic properties of novel surfaces and nanomaterials.
From 2009 to 2019, he worked as an e …
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new observable atomic effects, and combining these with experiments to probe fundamental physics… Search for transient variations of the fine structure constant and dark matter using fiber-linked optical atomic clocks… Atomic physics as a probe of the Standard Model… Atomic physics as a probe for fundamental physics and dark matter… matter or dark energy. Recent advances in both theory and experiment for atomic physics have opened a… Atomic structure theory… Working in theoretical atomic physics and particle astrophysics. My research focusses on high… as a dark matter and exotic physics observatory. In particular, we consider the atomic clocks of…
Working in theoretical atomic physics and particle astrophysics. My research focusses on high-precision atomic structure calculations, and how atomic processes can be used for testing fundamental theories, probing for physics beyond the standard model, and searching for dark matter. This is complime …
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knowledge base of atomic structure, enabling increased capability in fundamental physics tests and in precision atomic instruments.… Hyperfine anomaly in heavy atoms and its role in precision atomic searches for new physics… Probing new physics with atomic parity violation… physics and searches for new physics at the precision frontier. This includes calculations of atomic… High-precision atomic many-body theory… research is directed towards atomic tests of fundamental physics, involving development and… constant in TlF. These results are important for the interpretation of atomic and molecular…
Jacinda Ginges is a theoretical physicist in the School of Mathematics and Physics at UQ. Her research is directed towards atomic tests of fundamental physics, involving development and application of high-precision many-body methods for heavy atoms. Her areas of expertise include high-precision stu …
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been an indispensable tool for transformative applications in aeronautics, medicine, and climate… -metal atoms, the open and closed channels of the OFR are only very weakly detuned in energy. This leads…
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technologies combining up to 650 optical and electrical components onto a single chip that are capable…
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optical tweezers to determine (a) forces on chromosomes during cell division and answer long standing… laser dentistry, optical micromanipulation and hyperpolarised NMR gas imaging. … Erratum: Optically written waveguide in an atomic vapor [Phys. Rev. Lett. 82, 1438 (1999)]… Optical trap atomic force microscope… microfabrication in order to produce the microstructures needed for optically driven micromachines and tips… atomic and molecular physics community. In particular, quantum devices with enhanced precision, control…
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 coo …
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University (Finland, 2015) and a PhD in Applied Physics from University of Eastern Finland (Finland… osteoarthritis (PTOA). Non-invasive optical modalities, such as infrared and Raman spectroscopy, provide…
Dr Torniainen's main research interests are in the fields of biomedical signal and image processing, biophotonics, and applied spectroscopy. He holds BSc/MSc in Electrical Engineering from Aalto University (Finland, 2015) and a PhD in Applied Physics from University of Eastern Finland (Finland, 2020 …
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Descriptors representing two-and three-body atomic distributions and their effects on the accuracy of machine-learned inter-atomic potentials… Thermodynamic properties of atomic defects for quantum technologies… First-principles design of atomic defects for quantum technologies… better quantum emitters, a fundamental understanding of their optical and electronic properties, as well… current research focuses on understanding the structural, optical and thermodynamic properties of… is often described as a non-linear function of descriptors representing two-and three-body atomic…
Dr Verdi's research is in the field of computational materials physics. Her work employs first-principles or ab initio methods, complemented by machine learning techniques, to predict and understand physical properties of materials without relying on empirical models.
She received her doctorate in …
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Transition from vortices to solitonic vortices in trapped atomic Bose-Einstein condensates… School of Mathematics, Statistics and Physics. After this I moved to Japan where… -component Gross-Pitaevskii equation where each component has independent atom numbers and equal atomic…
After completing my PhD under the supervision of Prof. Patrik Öhberg at the Institute of Photonics and Quantum Sciences at Heriot-Watt University (Scotland, UK), I spent three years at Newcastle University (UK) as a postdocotoral researcher in the School of Mathematics, Statistics and Physics. After …
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Optical response of atom chains beyond the limit of low light intensity: The validity of the linear classical oscillator model… theoretical and experimental work using rephasing optical pulses has shown that rephased amplified spontaneous…