You’re invited! Join a Quantum Networking discussion with Joaquin Chung

Joaquin Chung. (Image courtesy Argonne National Laboratory.)

You are invited to join Information and Technology Services (ITS) in welcoming Joaquin Chung to campus for a presentation on Quantum Networking, cutting-edge research, and one of the future technologies in campus network computing. His talk is entitled, “Design and Implementation of the Illinois Express Quantum Metropolitan Area Network.”

The event will be held at 2 p.m. on Thursday, June 22, in the Dome at Arbor Lakes (4251 Plymouth Road, Building 3, Ann Arbor). This will be a very technical presentation geared for researchers and technologists.

Chung is a research scientist at the University of Chicago and Argonne National Laboratory who is working on the Illinois Express Quantum Metropolitan Area Network (IE QMAN). The IE QMAN is a functioning test bed that supports the transmission of quantum network traffic over existing dark fiber networks. This talk will describe details around the network control and physics involved in quantum data transmission.

Special Invitation

Chung will be available to chat with U-M researchers Thursday and Friday mornings during his time in Ann Arbor. If you would like to schedule a meeting with him, email T. Charles Yun (tcyun@umich.edu) to schedule an appointment.

About the speaker

Joaquin Chung is a postdoctoral appointee at the Data Science and Learning Division at Argonne National Laboratory. He received both his B.S. in Electronics and Communications Engineering (2007) and his M.Sc. in Communication Systems Engineering with Emphasis in Data Networks (2013) from University of Panama, Panama. He received his Ph.D in Electrical and Computer Engineering under the supervision of Dr. Henry Owen and Dr. Russ Clark at Georgia Institute of Technology, Atlanta, USA in December 2017. He is a Fulbright alumni, an IEEE member, and an ACM member. His research interests include software-defined networking, software-defined exchanges, cyber-infrastructure orchestration, edge computing, network security, and quantum communication networks.