Mirrors on the Moon

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Category: Department News

Published: Wednesday, July 17 2019 07:42

Along with Neil Armstrong and Buzz Aldrin, University of Maryland scientists left a lasting mark on the moon when Apollo 11 landed there 50 years ago this week, one that is still imprinting on the world of physics.

That’s because a piece of equipment the astronauts left behind—a small panel of 100 mirrors designed by UMD physicists Doug Currie and the late Carroll Alley and a national team—remains in use for experiments. It may soon get an upgrade, too, thanks to NASA’s new project to send astronauts back to the moon by 2024 and, eventually, to Mars.

Called the lunar laser ranging array, it works in tandem with two others placed by the Apollo 14 and 15 missions in 1971, and provides a target for lasers beamed from telescopes on Earth. The bounce-back from those pulses enables precise measurements of distance that in the past five decades have led to discoveries ranging from the moon’s liquid core to confirming that Earth’s continents are still (slowly) moving.

In fact, the arrays are responsible for “really the only verification” of some aspects of Einstein’s general theory of relativity, said Currie, now a professor emeritus at UMD.

“Science has come out of it remarkably,” he said.

There’s plenty more to learn, as Currie has been working with the National Laboratories of Frascati, Italy, and commercial space company Moon Express to get a new generation of arrays onto the moon. NASA announced earlier this month that the arrays will be one of 12 experiments placed on future payload missions as part of the Artemis lunar program and in partnership with private space companies.

Gorshkov Receives Early Career Research Award

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Category: Department News

Published: Monday, July 15 2019 09:42

(Credit: J. Consoli/UMD)Adjunct Associate Professor Alexey Gorshkov has received a Presidential Early Career Award for Scientists and Engineers (PECASE). Gorshkov is a physicist at the National Institute of Standards and Technology Physical Measurement Laboratory, as well as a Fellow of the UMD Joint Quantum Institute and the Fellow of the Joint Center for Quantum Information and Computer Science.  

Read more: https://jqi.umd.edu/news/gorshkov-receives-early-career-research-award

Currie to Send Next Gen Retroreflectors to Moon

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Category: Research News

Published: Thursday, July 11 2019 14:02

In 1969, University of Maryland physicist Doug Currie helped design three still-in-use lunar instruments placed on the moon by Apollo 11, 14 and 15. Fifty years later, Currie is lead scientist for a just-approved NASA project to place next-generation versions of these instruments on the Moon.

Known as lunar retroreflectors, the instruments reflect laser pulses sent from Earth back to their exact origin point, allowing precise measurements of the Earth-moon distance; providing data to better understand aspects of the moon’s interior, including its liquid core; testing questions of fundamental physics, and allowing better mapping and navigation of the lunar surface.  

According to Currie, a senior research scientist and professor emeritus at the University of Maryland, the new UMD-led project can lead to improvements in all of these research areas: (1) because of the hundred fold improvement in the accuracy of individual ranges using the new retroreflectors and (2) by the increased accuracy produced by a larger number of reflectors with a wider lunar area covered by the network.  Currently, there are five retroreflectors on the moon: the three placed by Apollo missions and two French-designed instruments placed by Soviet lunar missions. The Currie-led proposal would add three Next Generation Retroreflectors for a total of eight lunar retroreflector arrays. 

“Our Next Generation Lunar Retroreflector is a 21st Century version of the instruments currently on the Moon. Each placement of a Next Generation lunar laser ranging array will greatly enhance the scientific and navigational capabilities of retroreflector network,” said Currie. “These additions improve the mapping and navigation capabilities important for NASA’s plans to return to the Moon and by 2028 establish a sustained human presence.” 

“And these also will significantly boost scientists’ ability to use the network to conduct important science, such as new tests of general relativity and other theories of gravity. Such studies may help us understand the nature of mysterious dark matter, which appears to constitute almost 27 percent of the Universe,” he said. 

According to a NASA release, the Next Generation Lunar Retroreflectors (NGLR) is one of 12 new science and technology payloads selected by the agency to help humans study the Moon and explore more of its surface as part of the NASA’s Artemis lunar program. The agency says the retroreflector and the other 11 investigations and demonstrations “will help the agency to send astronauts to the Moon by 2024 as a way to prepare to send humans to Mars for the first time.”

The selected investigations will go to the Moon on future flights through NASA's Commercial Lunar Payload Services (CLPS) project. According to the agency, the CLPS project allows rapid acquisition of lunar delivery services for payloads like these that advance capabilities for science, exploration, or commercial development of the Moon. 

NASA has selected the first three commercial Moon landing service providers that will deliver science and technology payloads to the lunar surface. According to Currie, the Next Generation Retroreflectors are not currently scheduled by NASA to be among the payloads carried on those three commercial Moon landings. “However, we believe because of the low size and weight of these retroreflectors, each mission could safely add one to their planned payloads for each of these commercial delivery missions,” he said. 

"The selected lunar payloads represent cutting-edge innovations, and will take advantage of early flights through our commercial services project,” said Thomas Zurbuchen, associate administrator of the agency's Science Mission Directorate in Washington. "Each demonstrates either a new science instrument or a technological innovation that supports scientific and human exploration objectives, and many have broader applications for Mars and beyond.”

The NGLR team consists of Currie as Principal Investigator and Simone Dell’Agnello of the Istituto Nazionale di Fisica Nucleare, Laboratori Nazionali di Frascati, Italy, as Co-I/Co-PI. Co-Investigators are Christopher Davis of the UMD Electrical and Computer Engineering Department; Giovanni Delle Monache, also of the Istituto Nazionale di Fisica Nucleare; James Williams of the Jet Propulsion Laboratory; and John Rzasa and Dennis Wellnitz of the UMD Department of Astronomy. Assistant Research Scientist Chensheng Wu, a member of Professor Chris Davis’ Maryland Optical Group, has also done crucial work on the design of the Next Generation Lunar Retroreflectors.

(Currie was interviewed by ABC News about the 50th anniversary of Apollo 11.)

Links for more information:

What Neil & Buzz Left on the Moon | NASA Science Mission Directorate

NASA Selects 12 New Lunar Science, Technology Investigations 

Pictured (L-R) in 1969 are University of Maryland (UMD) physicist Doug Currie, University of Texas (UT) McDonald Observatory Director Harlan J. Smith, NASA Scientist-Astronaut Philip Chapman, UMD Professor of Physics Carroll Alley and NASA Scientist-Astronaut Don L. Lind discussing use of the McDonald Lunar Laser Ranging Observatory (MLLRO) to send short laser pulses to the first Lunar Laser Ranging (LLR) Retroreflector left on the lunar surface by the Apollo 11 Astronauts. The MLLRO program was developed and initially operated by Professor Currie (then associate professor) with the support of the Godard Space Craft Center and the University of Texas. UMD’s Professor Alley was the Principle Investigator of the project to place LLRs on the moon to address lunar physics, gravitation, General Relativity and Earth physics.  The LLR Retroreflectors were designed and developed by a team that in addition to UMD physicists Alley and Currie, included scientists from universities and federal institutions that included Princeton University, NASA Goddard Space Craft Center, the National Bureau of Standards, Wesleyan University and the University of California. NASA’s Scientist-Astronaut program trained Ph.D. scientists & engineers as astronauts. Image courtesy Doug Currie.

Original story: https://umdrightnow.umd.edu/news/umd-physicist-apollo-experiment-gets-chance-send-next-gen-version-moon

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Wolfgang Losert Named Interim Director of IPST

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Category: Department News

Published: Tuesday, July 02 2019 10:37

Wolfgang Losert has been named interim director of the university’s Institute for Physical Science and Technology (IPST), effective July 1, 2019.

Losert will serve as interim director while the College of Computer, Mathematical, and Natural Sciences (CMNS) conducts a national search to find a replacement for Christopher Jarzynski, who recently completed his five-year term as director. In addition to his IPST role, Losert will continue to serve as CMNS associate dean for research while CMNS Associate Dean Gerald “Jerry” Wilkinson takes on Losert’s responsibilities for graduate education.

“I want to thank Wolfgang for agreeing to serve in this capacity while we search for a new director of IPST,” said CMNS Dean Amitabh Varshney. “IPST is an important institute in our college. The interdisciplinary research the faculty members and students in IPST pursue is extremely valuable—they are truly expanding our understanding of the world around us.

IPST conducts interdisciplinary research in emerging areas at the boundaries between physics, chemistry, the mathematical and life sciences, and engineering. The institute also supports three interdisciplinary graduate programs in chemical physics, biophysics and applied mathematics.

“It is a great honor to serve as interim director of IPST, working with our star faculty and outstanding junior scientists at the forefront of interdisciplinary research,” Losert said. “When I look at our institute, interdisciplinary graduate training really stands out as a major accomplishment. IPST supports three interdisciplinary graduate programs and IPST faculty lead two prestigious NSF-funded interdisciplinary graduate training programs, the COMBINE program in network biology and the UMD node of the Physics of Living Systems Student Research Network. I look forward to working with our dedicated staff in support of IPST’s mission in the coming year.”

In his personal research, Losert aims to discover emergent dynamic properties of complex systems at the interface of physics and biology, with a focus on collective migration and activity of cells. He currently leads a $7.5 million Multidisciplinary University Research Initiative program funded by the Air Force Office of Scientific Research and serves as co-principal investigator on a $20 million Brain Research through Advancing Innovative Neurotechnologies (BRAIN) initiative center grant from the National Institutes of Health. Additional funding for Losert’s research comes from the National Science Foundation and the National Institute of Standards and Technology. He was elected fellow of the American Physical Society in 2017. 

Within CMNS and the broader scientific community, Losert actively fosters cross-disciplinary interactions and new research and educational opportunities. He helped launch and currently co-leads the American Physical Society Group on Data Science. He is part of a trans-university initiative of the Howard Hughes Medical Institute (called NEXUS) that is developing new science and math courses for biology majors and pre-health care students that can serve as a national model. He helped initiate and co-directs the NCI-UMD Partnership for Integrative Cancer Research, which provides UMD faculty members and graduate students the opportunity to tackle pressing problems in cancer research in collaboration with National Cancer Institute experts. 

Losert joined UMD in 2000 as an assistant professor and has served as an associate dean in CMNS since 2014. He earned his Ph.D. in physics from the City College of the City University of New York in 1998 and his diplom in applied physics from the Technical University of Munich in Germany in 1995.

During Jarzynski’s time as IPST director, he facilitated the recruitment of several faculty members to the institute: Cell Biology and Molecular Genetics Assistant Professor Daniel Dwyer, Mathematics Assistant Professor Lise-Marie Imbert-Gerard, Chemistry and Biochemistry Assistant Professor Pratyush Tiwary, and Mathematics Professor Konstantina Trivisa. Jarzynski also launched an interdisciplinary research team program in IPST to incubate new research fields. The first seed-funded team, led by Dwyer, is using microfluids to study antimicrobial resistance. The institute also advanced its leadership in the field of phase transitions in fluids and plasmas under Jarzynski by hosting U.S.-Russia workshops on the topic in 2016 and 2017.

Media Relations Contact: Abby Robinson, 301-405-5845, This email address is being protected from spambots. You need JavaScript enabled to view it.