More Like this

1. Lev Gutman—A Pioneer in Theoretical Mesoscale Meteorology

   https://doi.org/10.1175/BAMS-D-24-0069.1  

   Gutman, Garik; Pielke, Roger; Anthes, Richard; Alpert, Pinhas; Baklanov, Alexander; Bodin, Svante; Khain, Alexander; Krichak, Simon (September 2024, Bulletin of the American Meteorological Society)

   Abstract On 5 March 2023, Professor Lev Gutman would have been 100 years old. This article describes Professor Gutman’s legacy in the field of dynamic mesoscale meteorology and numerical weather prediction. Gutman developed his career as a mathematician and meteorologist in the Soviet Union, where he built a school of specialists in mesoscale meteorology from the 1950s through the 1970s. He primarily worked on analytical methods to solve complex nonlinear problems, such as the structure of sea breezes, mountain–valley circulations, and thermal convection over heated terrain. Gutman pioneered the development of theories of cumulus clouds, tornadoes, and other atmospheric phenomena. In the 1960s, he carried out numerous research investigations on these topics with his doctoral students and collaborators at the High-Altitude Geophysical Institute in Nalchik in the northern Caucasus and later at the Siberian Scientific Center near Novosibirsk. Gutman compiled the results from these studies into a monograph titled “Introduction to the Nonlinear Theory of Mesoscale Meteorological Processes,” which was published in Russian in 1969 and later translated into English, Chinese, and Japanese. This monograph became a major textbook for specialists in mesoscale meteorology, remaining relevant to this day. After Professor Gutman immigrated to Israel in 1978, his collaborations expanded to include Israeli and western scientists from Europe and the United States. Gutman did not receive the recognition he deserved due to the political realities of the time. His book and his seminal analytical solutions should still be useful for early career scientists in mesoscale meteorology and atmospheric dynamics. 

   more » « less
2. Cluster Preface: Electrochemical Synthesis and Catalysis

   https://doi.org/10.1055/s-0039-1689970  

   Kawamata, Yu; Baran, Phil S. (May 2019, Synlett)

   null (Ed.)

   Yu Kawamata was born in Japan in 1988, and he completed his undergraduate education at Kyoto University. He obtained his master’s degree and his Ph.D. at the same university under the supervision of Professor Keiji Maruoka, and he undertook a short-term internship at The Scripps Research Institute working on natural product synthesis with Professor Phil S. Baran. Upon completion of his doctoral studies, he returned to the Baran laboratory as a research associate and currently is pursuing his postdoctoral studies on organic electrochemistry.Phil S. Baran was born in New Jersey in 1977 and completed his undergraduate education at New York University in 1997. After earning his Ph.D. at The Scripps Research Institute (TSRI) in 2001, he pursued postdoctoral studies at Harvard University until 2003, at which point he returned to TSRI to begin his independent career. He was promoted to the rank of professor in 2008 and is currently the Darlene Shiley Professor of Chemistry. The mission of his laboratory is to educate students at the intersection of fundamental organic chemistry and translational science. 

   more » « less
3. Credit portfolio selection with decaying contagion intensities

   https://doi.org/10.1111/mafi.12177  

   Bo, Lijun; Capponi, Agostino; Chen, Peng‐Chu (February 2018, Mathematical Finance)

   Abstract We develop a fixed‐income portfolio framework capturing the exponential decay of contagious intensities between successive default events. We show that the value function of the control problem is the classical solution to a recursive system of second‐order uniformly parabolic Hamilton–Jacobi–Bellman partial differential equations. We analyze the interplay between risk premia, decay of default intensities, and their volatilities. Our comparative statics analysis finds that the investor chooses to go long only if he is capturing enough risk premia. If the default intensities deteriorate faster, the investor increases the size of his position if he goes short, or reduces the size of his position if he goes long. 

   more » « less
4. Molecular collisions, photoionization and dynamics: honoring Professor Vincent McKoy M. H. F. Bettega, S. J. Buckman, M. Khakoo, P. Limão-Vieira and M. T. do N. Varella, EPJD, 76:65 (2022). https://doi.org/10.1140/epjd/s10053-022-00391-w

   M. H. F. Bettega, Marcio H; Buckman S J; Khakoo, Limao-Vieira (April 2022, The European physical journal D Atomic molecular and optical physics)

   The topical issue “Advances on Molecular Collisions, Photoionization and Dynamics” encompasses a set of theoretical and experimental contributions honouring the unprecedented scientific career of our loyal colleague and trusted friend the late Professor Vincent McKoy. He has been a pioneer in implementing ab initio electron-molecule scattering and molecular photoionization theoretical methods, alongside with his collaborations across the globe, having contributed to different research fields that are now well-established and where he leaves a strong scientific legacy as noted by the testimony of his long-lasting collaborator, Carl Winstead. The contributions hereafter are related to the most recent achievements in electron interactions with molecules and molecular ions as a function of phase and stage of aggregation as well as key aspects of photoionization mechanisms therein. Particular topics include studies of photon and electron interactions (excitation, ionization and attachment) with biological, technological, astrophysical and aeronomic relevant molecules, electron transport phenomena and electron induced surface chemistry. Theoretical aspects of model potentials and molecular processes including nonadiabatic chemical reactions are also addressed in this special occasion. 

   more » « less
5. Robert Kent Trench (1940—2021): A life devoted to symbiotic mutalisms and seeking nature’s truth.

   LaJeunesse, T; Banaszak, A; Fisher, C; Shick, J; Warner, M; Porter, J; Kuris, A; Iglesias-Prieto, R; Fitt, W (October 2021, Symbiosis)

   “It ain’t necessarily so” – A favored mantra recited by R. K. Trench in the context of “received truth,” or established beliefs; and the title of his unfinished autobiography. Professor Robert (Bob) Kent Trench’s research career brought together multiple disciplines in the study of mutualistic symbioses that are crucial to understanding the physiology, ecology, and co-evolution of metazoan and protist associations, many of which are beneficial to the Earth’s biosphere. Through the development and use of complementary techniques, he pioneered important discoveries about metabolically coupled interactions between “plants” and animals. Having grown up in Belize (formerly British Honduras), his journey in academia started at the University College of the West Indies (UCWI) on the island nation of Jamaica, then proceeded to the University of California, Los Angeles (USA); Oxford University (UK); and Yale University (Connecticut, USA). He was a longtime faculty member in the Department of Ecology, Evolution and Marine Biology at the University of California, Santa Barbara (Figs. 1a–f). Over the course of his life (August 3 1940–April 27 2021), he recognized that many things presented as fact were often accumulated dogma. His direct application of the scientific method ultimately helped to change these misconceptions. By deconstructing established ‘beliefs,’ he greatly improved our understanding of several mutualistic symbioses, and many of his insights and hypotheses published decades ago remain at the forefront of intense investigation to this day. 

   more » « less