We develop software for simulating quantum-photonic devices.
Our software has applications chiefly in the budding fields of quantum computing and ultra-secure quantum communications.
We specialise in modelling quantum systems of the solid-state type, which are commonly embedded in cavity structures in order to control and enhance specific optical transitions.
Our software for modelling interactions of light with matter is underpinned by an original and proprietary general methodology developed by us from first principles. Two of the main distinguishing features of our methodology are:
- ability to handle ultra-short pulses and coherent interactions; and
- freedom from approximations.
The purpose of our software is ultimately to save quantum-optical designers time and money, by eliminating the need to carry out repeated experiments to test and optimise real, physical prototypes.