Funding Friday 07/09/2021 Edition 33
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Federal
View current federal funding opportunities (pdf) curated by our Van Scoyoc partnership.
Fellowship
American Academy in Berlin Call for Applications Residential Fellowships Academic Year 2022/23 - Deadline: 09/27/2021

The Academy seeks to enrich transatlantic relations in the arts, humanities, social sciences, and public policy through the development and communication of projects of the highest scholarly merit. Past recipients include anthropologists, art historians, literary scholars, philosophers, historians, musicologists, journalists, writers of fiction and nonfiction, filmmakers, sociologists, legal scholars, economists, political scientists, diplomats, and public policy experts. For 2022/23, the Academy will also award a Richard C. Holbrooke Fellowship, for a project that explores innovative approaches to resolving major global issues, from armed conflicts to environmental challenges to the destructive impact of new technologies. The Academy will also award a newly inaugurated Bayer Fellowship, for a project in the area of biotechnology or public health.
 
Approximately two dozen Berlin Prizes are conferred annually. Fellowships are typically awarded for an academic semester, but shorter stays of six to eight weeks are also possible. Benefits include round-trip airfare, partial board, a $5,000 monthly stipend, and accommodations at the Academy’s lakeside Hans Arnhold Center, in the Wannsee district of Berlin. 
Collaborative and Interdisciplinary
National Science Foundation (NSF) Cooperative Studies of the Earth's Deep Interior (CSEDI) - Deadline: 09/27/2021 - Up to $2,000,000

The Division of Earth Sciences (EAR) invites the submission of proposals for collaborative, interdisciplinary studies of the Earth's interior within the framework of the community-based initiative known as Cooperative Studies of the Earth's Deep Interior (CSEDI). Funding will support basic research on the character and dynamics of the Earth's mantle and core, their influence on the evolution of the Earth as a whole, and on processes operating within the deep interior that affect or are expressed on the Earth's surface.

Projects may employ any combination of field, laboratory, and computational studies with observational, theoretical, or experimental approaches. Interdisciplinary projects are required.
National Science Foundation (NSF) Growing Convergence Research - Deadline: 02/07/2022 - Up to $3,600,000

Growing Convergence Research (GCR) at the National Science Foundation was identified as one of 10 Big Ideas. Convergence research is a means for solving vexing research problems, in particular, complex problems focusing on societal needs. It entails integrating knowledge, methods, and expertise from different disciplines and forming novel frameworks to catalyze scientific discovery and innovation.

GCR identifies Convergence Research as having two primary characteristics:

- Research driven by a specific and compelling problem. Convergence Research is generally inspired by the need to address a specific challenge or opportunity, whether it arises from deep scientific questions or pressing societal needs.
- Deep integration across disciplines. As experts from different disciplines pursue common research challenges, their knowledge, theories, methods, data, research communities and languages become increasingly intermingled or integrated. New frameworks, paradigms or even disciplines can form sustained interactions across multiple communities.

A distinct characteristic of convergence research, in contrast to other forms of multidisciplinary research, is that from the inception, the convergence paradigm intentionally brings together intellectually diverse researchers and stakeholders to frame the research questions, develop effective ways of communicating across disciplines and sectors, adopt common frameworks for their solution, and, when appropriate, develop a new scientific vocabulary. Research teams practicing convergence aim at developing sustainable relationships that may not only create solutions to the problem that engendered the collaboration, but also develop novel ways of framing related research questions and open new research vistas.

Plasma Physics is a study of matter and physical systems whose intrinsic properties are governed by collective interactions of large ensembles of free charged particles. 99.9% of the visible Universe is thought to consist of plasmas. The underlying physics of the collective behavior in plasmas has applications to space physics and astrophysics, materials science, applied mathematics, fusion science, accelerator science, and many branches of engineering.

The National Science Foundation (NSF), with participation of the Directorates for Engineering, Geosciences, and Mathematical and Physical Sciences, and the Department of Energy, Office of Science, Fusion Energy Sciences are continuing the joint Partnership in Basic Plasma Science and Engineering begun in FY1997 and renewed several times since. As stated in the original solicitation (NSF 97-39), which is superseded by the present solicitation, the goal of the Partnership is to enhance basic plasma science research and education in this broad, multidisciplinary field by coordinating efforts and combining resources of the two agencies. The current solicitation also encourages submission of proposals to perform basic plasma experiments at NSF and/or DOE supported user facilities, including facilities located at DOE national laboratories, designed to serve the needs of the broader plasma science and engineering community.
To view opportunities in Pivot, login with your ACE credentials and select University of Nevada, Las Vegas in the institution dropdown. Pivot is an external funding opportunities database available to all UNLV faculty, staff, and students FREE of charge (OSP sponsors the yearly subscription cost).
Althea Sheets, Communications Manager for Research Development, Office of Sponsored Programs, althea.sheets@unlv.edu, 702-895-1880