Submitted by
tcubaynes on Thu, 09/11/2023 - 16:48.
The goal of the project is to study the spin-phonon coupling between a single molecular magnet and the bending modes of a suspended carbon nanotube. A suspended nanotube is a near ideal environment for the spin of the molecule, and it allows to control its phononic environment, which is expected to result in very long coherence time of the molecular spin. This project relies on the realization of a double quantum dot circuit within the carbon nanotube enhancing the scope of experimental exploration, one example being the ground state cooling of the carbon nanotube vibration.
Submitted by
MirkoP on Thu, 09/11/2023 - 13:45.
We are currently inviting applications for PhD studentship positions at Toshiba‘s Cambridge Research Laboratory. A range of experimental projects are available and you will have the opportunity to join a dynamic and supportive team and play a significant role in developing new quantum communication technologies. You will work alongside industrial research scientists to leverage ideas across the fields of quantum, optics, electronics and communications to design, conduct and analyse frontier quantum experiments. Research outcomes will be published in leading academic journals and presented at international conferences. Each studentship is offered in collaboration with one of the UK’s leading universities.
We are offering 1 PhD/postdoctoral position to well-qualified, highly motivated, and dynamic young scientists who wish to enhance their scientific career in a stimulating environment.
We are offering 1 PhD & 1 postdoctoral position to well-qualified, highly motivated, and dynamic young scientists who wish to enhance their scientific career in a stimulating environment.
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.
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