Once a top physics student who aspired to study black holes, Donhee Ham turned his sights from the huge to the small, from a study of the spacious skies above to tiny quantum wires, transistors, and integrated circuits.Ham, who was named Gordon McKay Professor of Electrical Engineering and Applied Physics in July, designs silicon chips containing millions of transistors for radios and computers, but his unique skills come out in projects that blend circuit-building with physics for unconventional applications and new scientific pursuits. Ham built the world’s smallest nuclear magnetic resonance (NMR) system by controlling atomic nucleic motions on a silicon chip, for example. The system, 1,200 times lighter than a commercial instrument, can be used as a handheld biomolecule sensor for disease screening, oil detection, and quantum computing.“He’s using his skill as an electrical engineer to go into other fields and really make an impact,” said Robert Westervelt, Mallinckrodt Professor of Applied Physics and of Physics.In announcing Ham’s promotion, Cherry Murray, dean of the School of Engineering and Applied Sciences, said Ham’s work at Harvard has helped to boost the School’s presence in electrical engineering. She hailed his “nearly encyclopedic understanding of physics and solid-state circuits,” which, she said, has led to creative and innovative applications in diverse fields such as biotechnology and medicine.In creating the mini-NMR system, Ham and graduate student Nan Sun rethought how NMR works. A magnet is essential to NMR. Because a larger magnet yields a stronger signal, most NMR machines use bulky magnets. Sun and Ham took an opposite approach, using a magnet only the size of a Ping-Pong ball and building a high-performing radio-frequency silicon chip that can retrieve the signal weakened by a small magnet. The result is a 0.2 kilogram NMR system that can be held in the palm of the hand. It is not only 1,200 times lighter than a conventional NMR system, but also 150 times more sensitive.Another project in Ham’s lab seeks to observe and engineer a state called “plasmonic resonance” in a metal where many electrons vibrate together as a group. The state has long been observed in optics, but at a very high rate of vibration. Ham’s pursuit is observing plasmonic resonance at a slower vibration rate — hundreds of billions of cycles per second — which falls in the electronics domain. The work, conceived by doctoral student Xiaofeng Li and carried out by Li and graduate student William Andress, envisions enabling plasmonic resonance in the electronics domain by exploiting the unique properties of tiny metals called “quantum wires.”If researchers can create waves, Ham said, they will be able to learn more about electron-electron interactions in quantum wires. Practically, the study could lead to the development of new types of resonators and transistors, Ham said, which could suggest a new avenue for electronics.Ham got his start in physics in college in South Korea, winning several prizes and graduating summa cum laude from Seoul National University in 1996, where he also won the Valedictorian Prize and the Physics Gold Medal. After a year and a half of mandatory service in the Korean Army, he went to the California Institute of Technology (Caltech) for his graduate work.He began working in astrophysics under Barry Barish, Caltech’s Linde Professor of Physics. Though Ham loved physics, during his first year his career interest shifted to a more practical field. After considering chucking it all for law or business, he settled on electrical engineering as an area where he could put physics to use. His doctoral work examined the statistical physics of circuits and earned him the Wilts Prize, given for the best electrical engineering thesis at Caltech.After Ham earned his Ph.D. in 2002, he came to Harvard as an assistant professor. He became associate professor in 2006, and Loeb Associate Professor of the Natural Sciences in 2007.“I owe my career to my teacher [Barish] and students,” said Ham. “Barry taught me how to do and enjoy science and how to help others. When I was quitting physics and not knowing what to do next, Barry generously went out of his way to support me. He said it was an investment in young people.”Top electrical engineering students gravitated to Harvard to work with Ham.“Not only did Xiaofeng Li, International Physics Olympiad gold medalist and two-time top ranker of the U.S. Intercollegiate Physics Competition, devise the plasmonics work with his superb science,” Ham said, “but he solved in two weeks a circuit noise problem that avoided solution for 40 years, revealing a surprising, beautiful connection between classical circuits and quantum electrodynamics. Xiaofeng is an incredibly deep and clear thinker who has an inside track to truth.”Discussing another gifted contributor, Ham said that Andress, 2004 Hoopes Prize winner, “created tiny electromagnetic and plasmonic devices I could not think of.”On Nan, who is a top graduate from Tsinghua University and a two-time Harvard Teaching Award winner, Ham said: “Nan should have received all the recognition I’ve received for the NMR work, for he singlehandedly and brilliantly built a series of ever-shrinking NMR systems in just one year, with the highest intellectual and technical virtuosity and scientific breadth.”“I am blessed to work with students with the highest quality of minds,” Ham said.Ham’s physics background, Westervelt said, makes him a good collaborator with physicists. For example, Westervelt has found that when he talks with chip designers, he finds that they understand the project, but not the physics behind it. In talking with Ham, Westervelt added, it’s apparent he understands not only the engineering but its underlying science, making him a good sounding board for ideas.“He’s a very creative guy who knows his science as well as engineering. He not only understands an idea, he can deliver the goods,” Westervelt said.
Body of missing Asheville hiker Chad Seger found Woman missing in Zion National Park for 12 days is found alive After Seger’s body was located, his family gathered near the search area to thank first responders. “We found him yesterday. It wasn’t what we wanted, but our minds are at ease,” Chad’s sister Chelsea told ABC 13 News. “I just wanted to thank Team 57. They found him. They pulled him out and they did their job.” A California woman who went missing in Zion National Park while on vacation has been found alive after she was lost in the park for 12 days. Holly Courtier, 38, injured her head on a tree while exploring the park and became disoriented, her family said. She survived by staying close to water until rescuers could located and reach her. When rescuers did eventually track down Courtier, she was so dehydrated that she could take only one or two steps before collapsing. The body of missing hiker Chad Seger, of Asheville, was found Tuesday afternoon in the Shining Rock Wilderness Area of Pisgah National Forest, search and rescue officials said. The body was found in an off-trail area near the Art Loeb Trail. The cause of Seger’s death has not yet been determined. “The overwhelming desire to have a close encounter with a black bear is strangely more powerful than common sense,” Sevier County Wildlife Sgt. David Saxton told CNN. “Many people intentionally feed bears with little regard for the dire consequences to the bears and humans they leave behind.” A woman who filmed herself intentionally feeding a black bear in Gatlinburg, Tennessee and posted the video to Tik Tok, may face up to six months in jail, the Tennessee Wildlife Resources Agency said. The 21-year-old woman from Virginia has been charged with illegally feeding a bear, a Class B Misdemeanor. Woman who posted video of herself feeding black bear may face jail time “She was very disoriented… and thankfully ended up near a water source—a riverbed,” Kailey Chambers, Courtier’s daughter, said in a statement. “She thought her best chance of survival was to stay next to a water source.” Photo courtesy of Getty Images – by MattCuda
Premier League leaders Chelsea will look to restore their seven point lead at the top of the table this afternoon.They face Manchester United at Old Trafford at 4pm.The match also sees Jose Mourinho host his former side for the first time as United boss.Meanwhile Celtic go to Ross County this lunchtime as they look to go all the way to the end of the Scottish Premiership season unbeaten. Brendan Rodgers’ side have already secured the title.The action kicks off at the Global Energy Stadium at 12:30pm. Photo © – pixabay