Barron 39;s E-z Physics Pdf

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Alexander T. J. Barron is a Postdoctoral Associate in computational social science. His overarching research theme is the study of groups of individuals producing content, where the content itself serves as a focal point of attention and a binding principal for a group. He has a background in physics, complex systems, and informatics, focusing on large-scale, data-centric approaches to cultural creation and consumption. He has published work in PNAS, Nature Human Behavior, Scientific Reports, and JPhys: Complexity. His PNAS paper on innovation and influence in political speeches during the French Revolution won the 2018 Cozzarelli Prize in Behavioral and Social Sciences, one of six such yearly prizes reflecting "scientific excellence and originality" from the National Academy of Sciences, USA. Alexander is interested in research comprising multifaceted problems, as well as harnessing "green-field", unutilized data sets. All his work has benefited from integrating multiple points of view: history, sociology, physics, and computer science so far.

With her work, Barron is hoping to address these low retention rates at the local level here at the University of New Mexico. Her project will be designed based on the unique resources and demographics of the UNM physics department, and will incorporate evidence-based methods from existing programs.

Since 2016, 80 women have been named as winners of the Women in STEM awards. We need your help to keep this program going. Please consider showing your support by donating to the WIS Award Fund or to another general fund that supports the work of Advance at UNM. Read more about past winners.

N2 - Opening up a new window of millimeter-wave observations that span frequency bands in the range of 30 to 500 GHz, survey half the sky, and are both an order of magnitude deeper (about 0.5 uK-arcmin) and of higher-resolution (about 10 arcseconds) than currently funded surveys would yield an enormous gain in understanding of both fundamental physics and astrophysics. In particular, such a survey would allow for major advances in measuring the distribution of dark matter and gas on small-scales, and yield needed insight on 1.) dark matter particle properties, 2.) the evolution of gas and galaxies, 3.) new light particle species, 4.) the epoch of inflation, and 5.) the census of bodies orbiting in the outer Solar System.

AB - Opening up a new window of millimeter-wave observations that span frequency bands in the range of 30 to 500 GHz, survey half the sky, and are both an order of magnitude deeper (about 0.5 uK-arcmin) and of higher-resolution (about 10 arcseconds) than currently funded surveys would yield an enormous gain in understanding of both fundamental physics and astrophysics. In particular, such a survey would allow for major advances in measuring the distribution of dark matter and gas on small-scales, and yield needed insight on 1.) dark matter particle properties, 2.) the evolution of gas and galaxies, 3.) new light particle species, 4.) the epoch of inflation, and 5.) the census of bodies orbiting in the outer Solar System.

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Professor Laurence Barron, Gardiner Professor of Chemistry at the University of Glasgow, joins the ranks of Isaac Newton, Charles Darwin and Stephen Hawking with the announcement on 26 May 2005 of his election to the Fellowship of the Royal Society. The new Fellows of the Royal Society are among the very best scientists in their fields which include seismology, mathematics, neuroscience and ecology.

The Royal Society has elected 44 new Fellows and six Foreign Members from the fields of science, engineering and technology. Fellows are elected for their contributions to science, both in fundamental research resulting in greater understanding, and also in leading and directing scientific and technological progress in industry and research establishments.

Professor Barron is distinguished for his work on the electric, magnetic and optical properties of molecules, including his widely adopted extension of Lord Kelvin's definition of chirality to include motion. The word 'chirality' was first introduced into science by Glasgow's Lord Kelvin in 1884. Its meaning applies across much of modern popular science, ranging from the physics of elementary particles, through organic stereochemistry and on to the large biomolecules such as proteins and nucleic acids which constitute life's molecular machinery.

A new phenomenon discovered by Prof Barron early in his career is Raman Optical Activity (ROA). ROA involves scattering of circularly polarized (divided) laser light in such a way that it is very sensitive to the 3D structures of chiral molecules. Thanks to the application of new technology in his laboratory with Glasgow chemistry colleague Dr Lutz Hecht, ROA can now be applied to the central molecules of life. This research could lead to breakthroughs in the treatment of neurodegenerative diseases such as Alzheimer's, Parkinson's and CJD.

Lord May of Oxford, President of the Royal Society, said: 'These new Fellows of the Royal Society are among the best scientists in the UK and Commonwealth. In being elected to the Fellowship they follow in the footsteps of the august scientists of the last three and a half centuries while, at the same time, representing cutting edge science in the UK today. Their collective achievements demonstrate that this country is a major player on the global stage in science.'

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