Sort by
Refine Your Search
-
motivated researcher willing to work as part of a multidisciplinary team.The ideal candidate will have a strong theoretical understanding and an experimental background in one or more of the following fields
-
. The successful candidate will be expected to contribute to experimental design and procedure as part in a collaborative decision-making process, while taking responsibility for implementing experiments
-
strong experimental background in one or more of the following fields: experimental quantum photonics, quantum communications. A record of high-quality publications, relative to opportunity, in the above
-
the Heriot-Watt cleanroom and with industrial partners. build the experimental setup and carry out measurements to characterise the fabricated devices, including developing fibre coupling solutions. These will
-
is primarily experimental, developing measurement systems and principles, with theory and analysis to support this. We strongly collaborate with clinical practitioners in order to move those systems
-
demonstration of a quantum key distribution system operating at GHz clock–rate over an optical fibre link (2004); the first experimental demonstrations of quantum digital signatures (including the first
-
) Evidence of working together with industry partners and collaborators, aligning work with business needs Experience in design and operation and integration of mechanical systems, preferably fluidic systems
-
of GeoEnergy Engineering at Heriot-Watt University’s Riccarton campus in Edinburgh. They will undertake dynamic flow simulation studies to gain insights into fluid flow and pressure propagation in the
-
Photonics. IPaQS has a strong culture of collaborative research, which is built on the regular exchange of ideas between our experimental and theory groups. We are a tight-knit community of academics