Award Data

ABSTRACT: The objective of the Phase II effort is to extend the mathematical model investigated in the Phase I to include wind speed as well as temperature modeling, continue its development for a University of Notre Dame Wind Tunnel Facility, and demonstrate utility by adopting the model to a government facility specified by AFOSR. Specifically, the Phase II will include developmental work in ma ...

Superconducting radio frequency (SRF) cavities are being successfully used for acceleration of charged particle beams worldwide. The application of the SRF cavities for manipulation of the beam properties in the transverse direction is both immanent and appropriate. The use of superconducting (SC) structures helps maximize the accelerating gradient, which is a highly desirable trait for applicat ...

The highest priority in the Nuclear Physics program is, at present, the Facility for Rare Isotope Beams. In the longer term it is likely that a high priority will be an Electron Ion Collider, and several concepts are under development. In order to achieve the high luminosities that would be required to make such a machine attractive, some kind of bunch crabbing system will be required. For example ...

The only HEP laboratory left in the US is Femilab and the operation of the Tevatron will cease soon after the LHC at CERN starts accumulating data, either in 2010 or 2011. In order for a presence in HEP to be retained in the US, Fermilab is exploring a number of options, centered around what is called Project X. Several scenarios are being considered but will likely include a ~2GeV proton accelera ...

High energy density and high power capacitors operating at a high frequency are in great demand for a variety of residential, military, medical, and industrial applications. In fact, a large percentage of the cost of alternative energy components is consumed by the cost of capacitors. Although there have been some developments in the fabrication of inorganic super-capacitors, the problems encoun ...

Successful completion of the proposed Phase I work outlined and follow-on Phase II work will provide a system to rank existing materials and coatings for severe wear applications. In addition, the ranking system can be utilized to identify desirable properties in new materials and/or coatings that could be developed for specific severe wear applications. The validated system resulting from the Ph ...

ABSTRACT: The proposal outlines work and time tables associated with finalizing the development of wear model concepts developed in Phase I work to predict the wear of two materials sliding with respect to each other while being subjected to high velocities and/or high pressures. In parallel with this, a severe wear bench test fixture design will be finalized, built, and utilized to validate the ...

ABSTRACT: This proposal is concerned with the development of a novel failure initiation and progressive failure analysis modeling method for advanced composite structures, including the analysis of selected structural joints utilizing a statistically based micromechanics model embedded in a 3D non-linear finite element code. The method accounts for the interaction between out-of-plane failure and ...

ABSTRACT: We will design, fabricate and test a quantum processing unit (QPU) based on a symmetric ion trap chip. The trap will provide trapping depth similar to that obtain with macrosize Paul traps. In addition to the ion trap, this chip will incorporate integrated optical systems which will deliver the light fields required by the elementary quantum processing unit (or quantum sensing unit). ...

Akermin proposes, in collaboration with the University of New Mexico, to demonstrate the viability of electronic connections between biomolecules and engineered surfaces in order to harvest power and energy through biologic systems. This work is in part based on Akermin’s proprietary enzyme stabilization technology, which can be used for many lower power commercial and military applications, in ...