Robert M. Schofield Explained
Birth Date: | 1960 |
Other Names: | Robert M. S. Schofield |
Fields: | Physics Biophysics |
Alma Mater: | B.A. Psychology, 1982 and B.A. Physics, 1983 Brigham Young University Ph.D., Biophysics, 1990 University of Oregon |
Thesis Title: | X-ray microanalytic concentration measurements in unsectioned specimens: A technique and its application to zinc, manganese, and iron enriched mechanical structures of organisms from three phyla |
Thesis Url: | https://www.proquest.com/openview/4e62763f267389dda9fcf6ea9ebf3d2f/1 |
Thesis Year: | 1990 |
Doctoral Advisor: | Harlan w. Lefevre |
Awards: | 2014 Fellow, American Physical Society 2017 Outstanding Accomplishment Non-Tenure-Track Faculty Research |
Robert M. Schofield (born 1960) is an American physicist and a research associate professor at the University of Oregon (UO). He was elected a Fellow of the American Physical Society in 2014.
Early life and education
Born in 1960,[1] Schofield holds bachelor's degrees in experimental psychology (1982) and in physics (1983) from Brigham Young University. He earned a Ph.D. in 1990 at the University of Oregon, with the dissertation, X-ray microanalytic concentration measurements in unsectioned specimens: A technique and its application to zinc, manganese, and iron enriched mechanical structures of organisms from three phyla, advised by Harlan W. Lefevre.[2]
Schofield held postdoctoral positions in the university's Institute of Molecular Biology and at Lund University. He then joined the UO as a research faculty member,[3] and was promoted in 2020 to research associate professor.[4]
Career
Schofield's research interests include gravitational waves and structural biophysics.[5] He has been described as "an inter-disciplinarian, merging principles from physics, biology and materials science in pursuit of his passions".[6]
LIGO
Schofield's work to enhance the sensitivity of the Laser Interferometer Gravitational-wave Observatory (LIGO) has allowed physicists to detect gravitational waves produced by colliding black holes. LIGO's biggest challenge is detector noise, from seismic waves, thermal motion, and photon shot noise, disturbances that could mask signals from gravitational waves.[7] LIGO can detect "a truck rumbling past, the humming of a refrigerator in a nearby building, or the distant flutter of a plane’s propellers".[8]
Laura Hamers wrote, "Gravitational waves are so faint by the time they reach Earth that they can be drowned out by closer-to-home disturbances most of us wouldn't even notice. For example, the early LIGO detectors were so sensitive that water going over a dam 30 kilometers away could throw off the data, said Schofield, who co-leads the environmental monitoring at the Hanford detector. He and his colleagues have placed a bevy of sensors around the detectors, which keep track of external disruptions like rumbling traffic or crackling lightning."[9]
Elected a Fellow of the American Physical Society, Schofield was cited for "leadership in identifying and mitigating environmental factors which impact the sensitivity of terrestrial gravitational wave detectors and elimination [of] spurious noise sources in LIGO."[10]
Biophysics
BBC News said of Schofield's findings, "Central American leaf-cutter ants 'retire' from their cutting role when they grow old, switching to carrying when their jaws blunt with age... Dr Schofield and his team used electron microscopy to compare the pristine teeth of laboratory-reared pupae with the worn teeth of the wild forager ants."[11]
Schofield has found similarities between his research methods in biology and physics. For example, micromanipulators used in physics to guide a laser beam can be reconfigured to move an ant mandible through a leaf, allowing measurement of force. In addition, calculations Schofield uses in biology are similar to calculations in his work at LIGO.[12]
In January 2016, Schofield and five undergraduate researchers published a paper in Royal Society Open Science, making video clips of ants' leaf processing behaviors.[13] They "documented never-before-seen looks at the ants' prehensile skills — they're good at grabbing — and the layers of behaviors associated with gathering leaves, delivering them to the nests and processing them to grow the fungus that colony members eat".[14]
Schofield and 15 students from University of Oregon and Lane Community College conducted studies in 2021 that led to the discovery of the heavy element materials zinc and manganese in "ant mandibles, spider fangs and scorpion sting tips" that harden and sharpen their cutting tools.[15]
Mentoring
Schofield served as a mentor for McNair Scholars at UO between 2015 and 2017, supervising student participation in biology and biochemistry projects.[16]
Selected publications
LIGO
- LIGO Scientific Collaboration and Virgo Collaboration . 2016-02-11 . Observation of Gravitational Waves from a Binary Black Hole Merger . Physical Review Letters . 116 . 6 . 061102 . 1602.03837 . 2016PhRvL.116f1102A . 10.1103/PhysRevLett.116.061102 . 26918975 . 119286014.
- Brooks . Aidan F. . Vajente . Gabriele . Yamamoto . Hiro . Abbott . Rich . Adams . Carl . Adhikari . Rana X. . Ananyeva . Alena . Appert . Stephen . Arai . Koji . Areeda . Joseph S. . Asali . Yasmeen . Aston . Stuart M. . Austin . Corey . Baer . Anne M. . Ball . Matthew . 5 . 2021-05-01 . Point absorbers in Advanced LIGO . Applied Optics . 60 . 13 . 4047–4063 . 10.1364/AO.419689 . 33983346 . 2101.05828 . 2021ApOpt..60.4047B . 231627516 . free .
- Thrane . Eric . Christensen . Nelson . Schofield . Robert M. S. . Effler . Anamaria . 2014-07-11 . Correlated noise in networks of gravitational-wave detectors: subtraction and mitigation . Physical Review D . 90 . 2 . 023013 . 10.1103/PhysRevD.90.023013 . 1406.2367 . 2014PhRvD..90b3013T . 9395488 .
- Point absorbers in Advanced LIGO . Applied Optics . 2021 . 10.1364/AO.419689. 2101.05828 . Brooks . Aidan F. . Vajente . Gabriele . Yamamoto . Hiro . Abbott . Rich . Adams . Carl . Adhikari . Rana X. . Ananyeva . Alena . Appert . Stephen . Arai . Koji . Areeda . Joseph S. . Asali . Yasmeen . Aston . Stuart M. . Austin . Corey . Baer . Anne M. . Ball . Matthew . Ballmer . Stefan W. . Banagiri . Sharan . Barker . David . Barsotti . Lisa . Bartlett . Jeffrey . Berger . Beverly K. . Betzwieser . Joseph . Bhattacharjee . Dripta . Billingsley . Garilynn . Biscans . Sebastien . Blair . Carl D. . Blair . Ryan M. . Bode . Nina . Booker . Phillip . Bork . Rolf . 60 . 13 . 4047–4063 . 33983346 . 2021ApOpt..60.4047B . 231627516 . 1 .
- Janssens . Kamiel . Ball . Matthew . Schofield . Robert M. S. . Christensen . Nelson . Frey . Raymond . van Remortel . Nick . Banagiri . Sharan . Coughlin . Michael W. . Effler . Anamaria . Gołkowski . Mark . Kubisz . Jerzy . Ostrowski . Michał . Correlated 1–1000 Hz magnetic field fluctuations from lightning over Earth-scale distances and their impact on gravitational wave searches . Physical Review D . 2023 . 107 . 2 . 022004 . 10.1103/PhysRevD.107.022004 . 2209.00284. 2023PhRvD.107b2004J . 251979582 .
Biophysics
- Schofield . Robert M. . Nesson . Michael H . Richardson . Kathleen A. . December 3, 2002 . Tooth hardness increases with zinc-content in mandibles of young adult leaf-cutter ants . Naturwissenschaften . 89 . 12 . 579–583 . 10.1007/s00114-002-0381-4 . 12536282 . 2002NW.....89..579S . 12156985 .
- Schofield . Robert M. S. . Nesson . Michael H. . 2003-08-22 . Comment on 'High Abrasion Resistance with Sparse Mineralization: Copper Biomineral in Worm Jaws' . Science . en . 301 . 5636 . 1049 . 10.1126/science.1089289 . 12933994 . 39841691 .
- Schofield . Robert M. . Emmett . Kristen D . Niedbala . Jack C. . Nesson . Michael H. . May 2011 . Leaf-cutter ants with worn mandibles cut half as fast . Behavioral Ecology and Sociobiology . 65 . 5 . 969–982 . . 10.1007/s00265-010-1098-6 . 31529329 .
- Schofield . R. M. S. . Bailey . J. . Coon . J. J. . Devaraj . A. . Garrett . R. W. . Goggans . M. S. . Hebner . M. G. . Lee . B. S. . Lee . D. . Lovern . N. . Ober-Singleton . S. . Saephan . N. . Seagal . V. R. . Silver . D. M. . Som . H. E. . 2021-09-01 . The homogenous alternative to biomineralization: Zn- and Mn-rich materials enable sharp organismal 'tools' that reduce force requirements . Scientific Reports . 11 . 1 . 17481 . 10.1038/s41598-021-91795-y . 34471148 . 8410824 . 2021NatSR..1117481S .
Awards, honors
See also
External links
Notes and References
- Web site: September 11, 2022 . U.S., Index to Public Records, 1994-2019 . subscription . www.ancestry.com.
- Schofield . Robert M. S. . 1990 . X-Ray Microanalytic Concentration Measurements in Unsectioned Specimens: a Technique and its Application to Zinc, Manganese, and Iron Enriched Mechanical Structures of Organisms from Three Phyla . 1990PhDT.......283S . 135472065 .
- Web site: 2014-12-16 . Two UO scientists named fellows of American Physical Society . 2022-09-07 . Around the O . en.
- Web site: 2020 Faculty Promotions Office of the Provost . 2022-09-17 . provost.uoregon.edu.
- Web site: Research Staff Profile Categories Department of Physics . 2022-09-08 . physics.uoregon.edu.
- Web site: Robert Schofield's research in The Conversation Institute for Fundamental Science . 2022-09-08 . ifs.uoregon.edu . en-US.
- Berti . Emanuele . The First Sounds of Merging Black Holes . Physics . 2016 . 9. 17 . 10.1103/Physics.9.17 . 1602.04476 . 2016PhyOJ...9...17B . 54655094 . free .
- News: Doughton . Sandi . 2018-05-14 . Ripples in space-time or 3-pound bird? Ravens at Hanford foul test of Einstein's theory . en-US . . 2022-09-17.
- Web site: 2021-12-01 . New research effort shines more light on black hole collisions . 2022-09-17 . Around the O . en.
- Web site: APS Fellow Archive . 2022-09-07 . www.aps.org . en.
- News: Brennard . Ema . 2011-01-07 . Leaf-cutter ants' teeth wear out . en-GB . British Broadcasting Corporation . 2022-11-18.
- Web site: Cooper . Matt . 2013-07-09 . Physicist finds new world with leaf-cutter ants . 2022-11-18 . Around the O . en.
- Garrett . Ryan W. . Carlson . Katherine A. . Goggans . Matthew Scott . Nesson . Michael H. . Shepard . Christopher A. . Schofield . Robert M. S. . Leaf processing behaviour in Atta leafcutter ants: 90% of leaf cutting takes place inside the nest, and ants select pieces that require less cutting . Royal Society Open Science . 2016 . 3 . 1 . 150111 . 10.1098/rsos.150111 . 4736916 . 26909161. 2016RSOS....350111G .
- Web site: 2016-01-28 . Skilled workers: Study shows the talents of leafcutter ants . 2022-09-08 . Around the O . en.
- Web site: Barlow . Jim . 2021-09-02 . Special materials boost the bite power of small critters . 2022-09-18 . Around the O . en.
- Web site: McNair Scholars Undergraduate Research and Distinguished Scholarships . 2022-11-18 . urds.uoregon.edu.
- Web site: 2017-05-23 . Seven faculty members earn 2017 Research Excellence Awards . 2022-09-17 . Around the O . en.