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- Deprecated function: TYPO3\PharStreamWrapper\Manager::__construct(): Implicitly marking parameter $collection as nullable is deprecated, the explicit nullable type must be used instead in include_once() (line 19 of includes/file.phar.inc).
The focus of this project is to realize a small quantum processor node, where the qubits consist of individual ions of Rare-Earth’s (Lanthanides). Such a processor node is a key unit that can be used in several quantum technologies, e.g. both as a quantum computer and for quantum communication. In order to be able to detect individual ions, the project uses an optical micro-cavity to amplify the emission by the Purcell effect.
Submitted by
Jarryd Pla on Thu, 20/04/2023 - 09:09.
Squeezed light, where noise along one component of a signal is reduced below the limit set by the uncertainty principle, is a non-classical resource that has been used extensively to increase the accuracy of measurements. Squeezing has been deployed for the detection of gravitational waves, to improve sensing of magnetic fields and even to speed up the search for dark matter.
Submitted by
Jarryd Pla on Thu, 20/04/2023 - 08:56.
Are you considering a career in quantum technology? Applications for Sydney Quantum Academy (SQA) PhD Scholarships are open until 2 October 2023.
Undertake cutting-edge research with leading quantum experts at four of Australia’s top universities — UNSW Sydney, Macquarie University, the University of Sydney and the University of Technology Sydney.
As a Sydney Quantum Academy PhD scholarship student, you'll become part of a vibrant and welcoming student community at the forefront of the fast-growing quantum technology industry.
Submitted by
encorz on Thu, 13/04/2023 - 10:48.
We are looking for a highly motivated student to do a PhD at the Quantum Computation Structures Team (QuaCS) at the Laboratoire Méthodes Formelles (LMF) in Paris-Saclay.
We seek for highly motivated, skilled, and independent graduate students that wish to develop their scientific career in a stimulating environment. This doctoral degree project will be carried out in the Quantum Photonics group led by Ana Predojevic (http://qphotonics.fysik.su.se). The successful candidate should have interest in quantum technologies, specifically quantum information and communication.
Submitted by
mkschmidt on Fri, 07/04/2023 - 14:05.
We are looking for motivated candidates interested in joining our effort to develop Hybrid Quantum Systems – in particular, to the development of threeway interfaces between radio-, microwave- and optical frequencies. The project will be carried out under the joint supervision of three Sydney-based experts: Dr Mikolaj K. Schmidt and Prof. Michael J. Steel (Macquarie University, Sydney) and A/Prof. Jarryd Pla (University of New South Wales, Sydney).
Quantum Optics laboratory of the Institute of Atomic Physics and Spectroscopy, lead by Prof. Janis Alnis, traditionally focused on precise measurements of light frequencies for optical frequency standards (optical clocks) probing atomic resonances with laser stabilised to a high-finesse optical resonator characterised by a femtosecond optical frequency comb up to 14 digits of precision. Also environmental monitoring of air pollutant gases with laser spectroscopy.
The Latvian Quantum initiative (LQI) is a partnership between leading academic institutions in Latvia recognized for research excellence in specific domains of quantum technologies. The initiative has been granted dedicated funding for development of research potential in quantum technologies, leveraging synergies between participating labs.
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