“Quantum Computing Basics” Webinar Features Renowned Dr. Jonathan Dowling This Thursday, June 27
(IQT.Webinars) Don’t forget to register for IQT’s free upcoming “Quantum Computing Basics” webinar to be presented by Dr. Jonathan Dowling this week on Thursday, June 27, 2019 from 11:AM to 11:45 AM (EDT). You will have the opportunity to hear from an insider/expert about breakthrough quantum technologies and a guide to future quantum tech potential. If you have been seeing “quantum” in the business and tech press lately and want to stay up to-date on current and future opportunities, then register here and join the FREE live webinar on Thursday, June 27, 2019 from 11:AM to 11:45 AM (EDT).
DETAILS: Join us for Inside Quantum Technology’s FREE insider’s look into breakthrough quantum computer technologies and a guide to their future technological evolution. In this live session, we will examine the quantum computing strategies of big names in computing and electronics including IBM, Microsoft, and Honeywell, and pure play firms including Rigetti and D-Wave. We’ll cover the development of chip technology at the core of quantum computers, the delivery of quantum computing power to the end user—clouds or in-house machines, and application and industry sector pioneers who are using quantum computing. At the end of the presentation, Dr. Dowling will take questions from the audience.
PRESENTED BY: Dr. Jonathan P. Dowling is a co-director of the Horace Hearne Institute for Theoretical Physics and a Hearne chair in Theoretical Physics at the Department of Physics and Astronomy at Louisiana State University. He is known for his work on quantum technology, particularly for exploiting quantum entanglement (in the form of a NOON state) for applications to quantum metrology, quantum sensing, and quantum imaging. He has also made contributions to quantum information theory, the field of photonic crystals, and the foundations of quantum electrodynamics. Dowling is one of the founders of the US Government program in quantum information processing.