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Julio Urbina, associate professor of electrical engineering, was awarded a Fulbright Scholarship to return and teach in his native Peru for the 2014-15 academic year. (Photo credit: Curtis Chan)
Julio Urbina, associate professor of electrical engineering, was awarded a Fulbright Scholarship to return and teach in his native Peru for the 2014-15 academic year. (Photo credit: Curtis Chan)
Dedication of EE lab equipment donated by B&K Precision; President/CEO Victor Tolan tours BCOE with Dean Abbaschian
Portrait of Franklin Dollar, professor of Physics and Astronomy at the University of California, Irvine. Dollar got both his Masters in Electrical Engineering in 2010 and his PhD in Applied Physics in 2012, from the University of Michigan.
Dollar’s work involves making the plasmas and seeing what they do, and optimizing experiments to produce X-rays or particle beams. These have applications in medicine, semiconductor engineering, basic research, and more. Dollar describes the experiment he and his team are currently running as “one of the most powerful interactions in the known universe.” When the infrared laser fires it is invisible to human eyes. Additionally the laser is conveyed inside a series of metal boxes that prevent any of the light from escaping. Even so, the concrete reinforced Control Room is the nearest anyone wants to be because at peak power the laser is three petawatts, or more than 100 times the global electricity production, but only for a few quintillionths of a second. The laser itself does not create radiation, but when it reaches the experimental room, the light interacts and generates radiation. There are extensive protocols for making sure that no people are in the area, since unnecessary radiation dose is never a good thing.
Dollar got both his Masters in Electrical Engineering in 2010 and his PhD in Applied Physics in 2012, from the University of Michigan. The students on his team from Physics and Astronomy at UC, Irvine are PhD’s Josh Lewis, Christopher Gardner, Victor Flores, and undergrad Ruben Gonzalez.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing
Visitors to the first "Explore. Engage. Engineering." event on Feb. 21, 2013, at the HUB's Alumni Hall, get a hands-on look at what engineers are involved in every day. Hosted by the Engineering Ambassadors, the event included ten engineering student organizations. The event was part of National Engineers Week. (Photo credit: Curtis Chan)
Electrical Engineering and Computer Science labs with lasers
Associate Professor Martin J. Strauss
August 5, 2008
Credit: U-M Photoservices
The U-M ZEUS team meets with Franklin Dollar’s team late in the evening in the Control Room of the Zetawatt-Equivalent Ultra-short laser pulse System (ZEUS) at the U-M Center for Ultrafast Optical Sciences in the Carl A. Gerstacker Building on the North Campus of the University of Michigan in Ann Arbor on Wednesday, August 14, 2024. On the left are Tanner Nutting, and Dr. Paul Campbell, both of U-M Zeus, and on the right are Christopher Gardner, Victor Flores, Josh Lewis and Ruben Gonzalez, all students at UC, Irvine.
Dollar’s work involves making the plasmas and seeing what they do, and optimizing experiments to produce X-rays or particle beams. These have applications in medicine, semiconductor engineering, basic research, and more. Dollar describes the experiment he and his team are currently running as “one of the most powerful interactions in the known universe.” When the infrared laser fires it is invisible to human eyes. Additionally the laser is conveyed inside a series of metal boxes that prevent any of the light from escaping. Even so, the concrete reinforced Control Room is the nearest anyone wants to be because at peak power the laser is three petawatts, or more than 100 times the global electricity production, but only for a few quintillionths of a second. The laser itself does not create radiation, but when it reaches the experimental room, the light interacts and generates radiation. There are extensive protocols for making sure that no people are in the area, since unnecessary radiation dose is never a good thing.
Dollar got both his Masters in Electrical Engineering in 2010 and his PhD in Applied Physics in 2012, from the University of Michigan. The students on his team from Physics and Astronomy at UC, Irvine are PhD’s Josh Lewis, Christopher Gardner, Victor Flores, and undergrad Ruben Gonzalez.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing
Portrait of Franklin Dollar, professor of Physics and Astronomy at the University of California, Irvine. Dollar got both his Masters in Electrical Engineering in 2010 and his PhD in Applied Physics in 2012, from the University of Michigan.
Dollar’s work involves making the plasmas and seeing what they do, and optimizing experiments to produce X-rays or particle beams. These have applications in medicine, semiconductor engineering, basic research, and more. Dollar describes the experiment he and his team are currently running as “one of the most powerful interactions in the known universe.” When the infrared laser fires it is invisible to human eyes. Additionally the laser is conveyed inside a series of metal boxes that prevent any of the light from escaping. Even so, the concrete reinforced Control Room is the nearest anyone wants to be because at peak power the laser is three petawatts, or more than 100 times the global electricity production, but only for a few quintillionths of a second. The laser itself does not create radiation, but when it reaches the experimental room, the light interacts and generates radiation. There are extensive protocols for making sure that no people are in the area, since unnecessary radiation dose is never a good thing.
Dollar got both his Masters in Electrical Engineering in 2010 and his PhD in Applied Physics in 2012, from the University of Michigan. The students on his team from Physics and Astronomy at UC, Irvine are PhD’s Josh Lewis, Christopher Gardner, Victor Flores, and undergrad Ruben Gonzalez.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing
Portrait of Franklin Dollar, professor of Physics and Astronomy at the University of California, Irvine. Dollar got both his Masters in Electrical Engineering in 2010 and his PhD in Applied Physics in 2012, from the University of Michigan.
Dollar’s work involves making the plasmas and seeing what they do, and optimizing experiments to produce X-rays or particle beams. These have applications in medicine, semiconductor engineering, basic research, and more. Dollar describes the experiment he and his team are currently running as “one of the most powerful interactions in the known universe.” When the infrared laser fires it is invisible to human eyes. Additionally the laser is conveyed inside a series of metal boxes that prevent any of the light from escaping. Even so, the concrete reinforced Control Room is the nearest anyone wants to be because at peak power the laser is three petawatts, or more than 100 times the global electricity production, but only for a few quintillionths of a second. The laser itself does not create radiation, but when it reaches the experimental room, the light interacts and generates radiation. There are extensive protocols for making sure that no people are in the area, since unnecessary radiation dose is never a good thing.
Dollar got both his Masters in Electrical Engineering in 2010 and his PhD in Applied Physics in 2012, from the University of Michigan. The students on his team from Physics and Astronomy at UC, Irvine are PhD’s Josh Lewis, Christopher Gardner, Victor Flores, and undergrad Ruben Gonzalez.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing
Doctoral student Dheeraj Mohata, left, and Suman Datta, professor of electrical engineering, teamed with researchers at the University of Notre Dame to announce a breakthrough in the development of tunneling field effect transistors, a semiconductor technology that takes advantage of the quirky behavior of electrons at the quantum level. (Photo credit: Curtis Chan)
A detail photo of the ZEUS (Zetawatt-Equivalent Ultra-short laser pulse System) Laser System Control in the Control Room n the Carl A. Gerstacker Building on the North Campus of the University of Michigan in Ann Arbor on Wednesday, August 14, 2024. ZEUS is the most powerful laser in the United States.
Franklin Dollar’s work involves making the plasmas and seeing what they do, and optimizing experiments to produce X-rays or particle beams. These have applications in medicine, semiconductor engineering, basic research, and more. Dollar describes the experiment he and his team are currently running as “one of the most powerful interactions in the known universe.” When the infrared laser fires it is invisible to human eyes. Additionally the laser is conveyed inside a series of metal boxes that prevent any of the light from escaping. Even so, the concrete reinforced Control Room is the nearest anyone wants to be because at peak power the laser is three petawatts, or more than 100 times the global electricity production, but only for a few quintillionths of a second. The laser itself does not create radiation, but when it reaches the experimental room, the light interacts and generates radiation. There are extensive protocols for making sure that no people are in the area, since unnecessary radiation dose is never a good thing.
Dollar got both his Masters in Electrical Engineering in 2010 and his PhD in Applied Physics in 2012, from the University of Michigan. The students on his team from Physics and Astronomy at UC, Irvine are PhD’s Josh Lewis, Christopher Gardner, Victor Flores, and undergrad Ruben Gonzalez.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing
Julio Urbina, associate professor of electrical engineering, was awarded a Fulbright Scholarship to return and teach in his native Peru for the 2014-15 academic year. (Photo credit: Curtis Chan)
Julio Urbina, associate professor of electrical engineering, was awarded a Fulbright Scholarship to return and teach in his native Peru for the 2014-15 academic year. (Photo credit: Curtis Chan)
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Doctoral student Dheeraj Mohata, left, and Suman Datta, professor of electrical engineering, teamed with researchers at the University of Notre Dame to announce a breakthrough in the development of tunneling field effect transistors, a semiconductor technology that takes advantage of the quirky behavior of electrons at the quantum level. (Photo credit: Curtis Chan)