I was born and raised in the UK where I was lucky enough to have a decent education, a roof over my head and food in my belly. I was taught the most useful things I know at Wodensfield Primary School, Wolverhampton: play nicely with others; share what you have; don’t say nasty things and don’t run with scissors. Most other things I learned at King Alfred High School, Somerset. In 2004 after gaining a respectable set of grades I went to read for a physics degree at The University of Warwick. I rowed, climbed and danced through four years of intense study at Warwick, made some lifelong friendships and finally left with paper in a tube.
In 2008 I made my way to Australia to study for a PhD in experimental quantum physics. I carried out cutting edge research at The University of Queensland with almost a dozen others, known collectively as the Quantum Technology Lab. We worked together to solve problems and invent new ones all in the name of our ultimate goal: to build an optical quantum computer.
Upon graduating I transitioned into solid-state physics and started postdoc at The University of New South Wales in a bid to broaden my horizons scientifically. Here, we manipulated single phosphorus atoms inside a silicon substrate to perform quantum operations on individual electron particles, in essence we were operating at the very limit of electronic capabilities. The work I did in the Atomic Fabrication Facility taught me a lot about solid-state physics and by the end of my time here we had learned a lot about the ultimate limitations of this approach for building a quantum computer.
In 2016 I moved to the Niels Bohr Institute in Copenhagen as Assistant Professor in the Quantum Photonics Group. Here I was the proud holder of a Marie Curie Skłodowska Fellowship from the European Union, working towards building multi single-photon sources using quantum dot emitters. During this time I developed multi-photon sources as well as solved problems for the generation of entangled two-photon states from quantum dots coupled to photonic nano-structures. Ultimately we hope to demonstrate the quantum computers can outperform their classical counterparts, this is often referred to as quantum supremacy.
My most recent appointment is at the University of Warwick, after leaving ten years ago as a fledgling grad student I have returned as a faculty member. I am also actively developing my skills as an academic writer. I work remotely as one of the main technical writers at EssayUsa.com. In this company, I can help students from all over the world in their academic studies.
My research here will combine the experience I have in both the fields of solid-state device physics and quantum optics, where I will be looking at the quantum optics and quantum electronics of two-dimensional semiconductors.
It’s not all work though. Check out the site and find out more.