Electrical and Computer Engineering Masters Ceremony

May 12th, 2023

Soldiers and Sailors Memorial Hall

2018 Roger Webb Awards

School of Electrical & Computer Engineering

College of Engineering

Georgia Institute of Technology

Electrical and Computer Engineering Masters Ceremony

May 12th, 2023

Soldiers and Sailors Memorial Hall

Electrical and Computer Engineering Masters Ceremony

May 12th, 2023

Soldiers and Sailors Memorial Hall

Electrical and computer engineering assistant professor

Photo Credit: Beverly Barrett, 2009

Baluchistan HEC,

Electrical and Computer Engineering Masters Ceremony

May 12th, 2023

Soldiers and Sailors Memorial Hall

August 29, 2013

Steve Lidia, the senior physicist and adjunct professor of physics and electrical and computer engineering at Michigan State University, center, and Takuji Kanemura, the High Power Targetry deputy department manager of the Facility for Rare Isotope Beams (FRIB), give students in the Harper Academy 4 Future Nuclear Engineers program an overview of the kind of multidisciplinary work they do at the FRIB in Lansing, on Friday, July 12, 2024.

The trip to the FRIB afforded the students the opportunity to see and experience a Department of Energy national research laboratory in action. Students were given an overview followed by a tour with Steve Lidia, the senior physicist and adjunct professor of physics and electrical and computer engineering.

The FRIB accelerates heavy-ion beams at beam power up to 400 kilowatts into a target to create rare isotopes for scientific research. The most important of these last for only microseconds. High-power, heavy-ion beam facilities like the FRIB are needed to enable fundamental nuclear science discoveries. The FRIB enables scientists to study properties of rare isotopes, nuclear astrophysics, fundamental interactions, and applications for society, including in medicine, homeland security, and industry.

Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing

Electrical and Computer Engineering Masters Ceremony

May 12th, 2023

Soldiers and Sailors Memorial Hall

Electrical and Computer Engineering Masters Ceremony

May 12th, 2023

Soldiers and Sailors Memorial Hall

Electrical and Computer Engineering Masters Ceremony

May 12th, 2023

Soldiers and Sailors Memorial Hall

congrats to my brother

he graduated today from UTD with a degree in Computer Engineering.

=]

5Dc

35L

Steve Lidia, the senior physicist and adjunct professor of physics and electrical and computer engineering at Michigan State University gives students in the Harper Academy 4 Future Nuclear Engineers program an overview of the kind of multidisciplinary work they do at the Facility for Rare Isotope Beams (FRIB) in Lansing, on Friday, July 12, 2024.

The trip to the FRIB afforded the students the opportunity to see and experience a Department of Energy national research laboratory in action.

The FRIB accelerates heavy-ion beams at beam power up to 400 kilowatts into a target to create rare isotopes for scientific research. The most important of these last for only microseconds. High-power, heavy-ion beam facilities like the FRIB are needed to enable fundamental nuclear science discoveries. The FRIB enables scientists to study properties of rare isotopes, nuclear astrophysics, fundamental interactions, and applications for society, including in medicine, homeland security, and industry.

Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing

Steve Lidia, the senior physicist and adjunct professor of physics and electrical and computer engineering at Michigan State University, gives students in the Harper Academy 4 Future Nuclear Engineers program a tour of the Facility for Rare Isotope Beams (FRIB) at Michigan State University in Lansing, on Friday, July 12, 2024. They are seen here walking past the shielding that surrounds the ReA6 experimental vault. This area houses the SOLARIS beamline and solenoidal spectrometer for study of a broad range of direct nuclear reactions at energies around the Coulomb barrier.

The trip to the FRIB afforded the students the opportunity to see and experience a Department of Energy national research laboratory in action. Students were given an overview followed by a tour with Steve Lidia, the senior physicist and adjunct professor of physics and electrical and computer engineering.

The FRIB accelerates heavy-ion beams at beam power up to 400 kilowatts into a target to create rare isotopes for scientific research. The most important of these last for only microseconds. High-power, heavy-ion beam facilities like the FRIB are needed to enable fundamental nuclear science discoveries. The FRIB enables scientists to study properties of rare isotopes, nuclear astrophysics, fundamental interactions, and applications for society, including in medicine, homeland security, and industry.

Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing

Steve Lidia, the senior physicist and adjunct professor of physics and electrical and computer engineering at Michigan State University, gives students in the Harper Academy 4 Future Nuclear Engineers program a tour of the Facility for Rare Isotope Beams (FRIB) at Michigan State University in Lansing, on Friday, July 12, 2024. Students are seen here in the front end truck bay. The Front End is where the FRIB's heavy-ion beam begins. That room cannot be photographed for safety and security reasons. In it the Electron cyclontron resonance (ERC) ion sources remove electrons from atomic nuclei. In the ion sources, neutral atoms are vaporized into a hot plasma, which knocks electrons off the atoms and makes them into positively-charged ions. Once ions of appropriate charge are produced, they can be pushed with electric and magnetic fields. The ions are then extracted into the FRIB linear accelerator.

The trip to the FRIB afforded the students the opportunity to see and experience a Department of Energy national research laboratory in action. Students were given an overview followed by a tour with Steve Lidia, the senior physicist and adjunct professor of physics and electrical and computer engineering.

The FRIB accelerates heavy-ion beams at beam power up to 400 kilowatts into a target to create rare isotopes for scientific research. The most important of these last for only microseconds. High-power, heavy-ion beam facilities like the FRIB are needed to enable fundamental nuclear science discoveries. The FRIB enables scientists to study properties of rare isotopes, nuclear astrophysics, fundamental interactions, and applications for society, including in medicine, homeland security, and industry.

Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing

This photo is by Adam Karcs, Electrical & Computer Engineering.

Steve Lidia, the senior physicist and adjunct professor of physics and electrical and computer engineering at Michigan State University, gives students in the Harper Academy 4 Future Nuclear Engineers program a tour of the Facility for Rare Isotope Beams (FRIB) at Michigan State University in Lansing, on Friday, July 12, 2024. Here they are looking at the neutron wall detectors. These are two large-area (2m by 2m), high-efficiency, position-sensitive neutron detectors. Each wall consists of a stack of 25 glass cells filled with the scintillator liquid NE213, with which one can distinguish neutron from gamma-ray pulses by pulse shape analysis. Each cell is two meters long and has phototubes at its ends. Light from an interaction in the liquid reaches the phototube via total internal reflection.

The trip to the FRIB afforded the students the opportunity to see and experience a Department of Energy national research laboratory in action. Students were given an overview followed by a tour with Steve Lidia, the senior physicist and adjunct professor of physics and electrical and computer engineering.

The FRIB accelerates heavy-ion beams at beam power up to 400 kilowatts into a target to create rare isotopes for scientific research. The most important of these last for only microseconds. High-power, heavy-ion beam facilities like the FRIB are needed to enable fundamental nuclear science discoveries. The FRIB enables scientists to study properties of rare isotopes, nuclear astrophysics, fundamental interactions, and applications for society, including in medicine, homeland security, and industry.

Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing

Baluchistan HEC,

Baluchistan HEC,

Electrical and Computer Engineering Masters Ceremony

May 12th, 2023

Soldiers and Sailors Memorial Hall

College of Electronic Engineering

Steve Lidia, the senior physicist and adjunct professor of physics and electrical and computer engineering at Michigan State University gives students in the Harper Academy 4 Future Nuclear Engineers program an overview of the kind of multidisciplinary work they do at the Facility for Rare Isotope Beams (FRIB) in Lansing, on Friday, July 12, 2024.

The trip to the FRIB afforded the students the opportunity to see and experience a Department of Energy national research laboratory in action.

The FRIB accelerates heavy-ion beams at beam power up to 400 kilowatts into a target to create rare isotopes for scientific research. The most important of these last for only microseconds. High-power, heavy-ion beam facilities like the FRIB are needed to enable fundamental nuclear science discoveries. The FRIB enables scientists to study properties of rare isotopes, nuclear astrophysics, fundamental interactions, and applications for society, including in medicine, homeland security, and industry.

Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing

Electrical and Computer Engineering PhD Ceremony

May 13th, 2023

Studio Theater, Cohon University Center

Electrical and Computer Engineering Masters Ceremony

May 12th, 2023

Soldiers and Sailors Memorial Hall

Baluchistan HEC,

Electrical and Computer Engineering Masters Ceremony

May 12th, 2023

Soldiers and Sailors Memorial Hall

Tse Nga (Tina) Ng

Associate Professor - Electrical and Computer Engineering - UC San Diego

Steve Lidia, the senior physicist and adjunct professor of physics and electrical and computer engineering at Michigan State University gives students in the Harper Academy 4 Future Nuclear Engineers program an overview of the kind of multidisciplinary work they do at the Facility for Rare Isotope Beams (FRIB) in Lansing, on Friday, July 12, 2024.

The trip to the FRIB afforded the students the opportunity to see and experience a Department of Energy national research laboratory in action.

The FRIB accelerates heavy-ion beams at beam power up to 400 kilowatts into a target to create rare isotopes for scientific research. The most important of these last for only microseconds. High-power, heavy-ion beam facilities like the FRIB are needed to enable fundamental nuclear science discoveries. The FRIB enables scientists to study properties of rare isotopes, nuclear astrophysics, fundamental interactions, and applications for society, including in medicine, homeland security, and industry.

Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing