Quantum Information Research Collaboration
- Written by Jason Leong
- Category: Uncategorised
- Hits: 1433
Welcome to DynamicQuant - a platform built specifically for discussion of ideas in quantum information science and a repository of general resources on the topic. The aim of the site is to provide a focused and secure platform for research-based discussions in quantum information, leading to eventual research collaborations to be undertaken outside the platform. The end-goal is to allow individual researchers to produce more publications and to expedite the advancement of quantum information science as a whole.
Register for an account and spend a few minutes to post up any idea that you would like to have discussed by accessing the DynamicQuant forum in the right sidebar.
Read more about the DynamicQuant rules (which all researchers must abide by before participation here.
Or read more about DynamicQuant here.
Scientists have taken part in research where the first molecule capable of remembering the direction of a magnetic above liquid nitrogen temperatures has been prepared and characterized. The results may be used in the future to massively increase the storage capacity of hard disks without increasing their physical size.
Scientists have developed a method to measure magnetic properties of superconducting and magnetic materials that exhibit unusual quantum behavior at very low temperatures in high magnetic fields.
Quantum computers promise to revolutionize the future of computing. Scientists have now demonstrated for the first time that quantum computers do indeed offer advantages over conventional computers. They developed a quantum circuit that can solve a problem that is unsolvable using any equivalent classical circuit.