Defense Advanced Research Projects AgencyTagged Content List

Fundamental Physical Science

Pushing the boundaries of knowledge of the physical sciences

Showing 106 results for Fundamentals RSS
Constantly losing energy is something we deal with in everything we do. If you stop pedaling a bike, it gradually slows; if you let off the gas, your car also slows. As these vehicles move, they also generate heat from friction. Electronics encounter a similar effect as groups of electrons carry information from one point to another. As electrons move, they dissipate heat, reducing the distance a signal can travel. DARPA-sponsored researchers under the Mesodynamic Architectures (Meso) program, however, may have found a potential way around this fundamental problem.
Preserving and expanding the technological superiority of the U.S. military requires sustaining a pipeline of talented scientists, engineers and mathematicians who pursue high-risk, high-payoff fundamental research in disciplines that address critical Department of Defense (DoD) and national security needs. DARPA’s Young Faculty Award (YFA) program supports that goal by helping promising tenure-track faculty members better understand the federal research and development process generally and Department of Defense (DoD) and national security research needs in particular.
DARPA works to ensure the technological superiority of U.S. military forces, and the agency continually seeks new sources of talent to accomplish that goal. The nation’s three military Service academies are a promising source of that talent. These institutions immerse the next generation of military leaders in a unique environment that blends academic excellence and deep understanding of current and future military needs. To better cultivate the great potential of these young officers-to-be and encourage their career-long collaboration with DARPA, the agency last week hosted the first DARPA Service Academies Innovation Challenge.
Researchers working on DARPA’s Quantum Effects in Biological Environments (QuBE) program have shown that the electromagnetic noise that permeates modern urban environments can disrupt a bird’s internal magnetic compass. The findings settle a decades-long debate into whether low-level, artificial electric and magnetic fields can affect biological processes in higher vertebrates. For DARPA, the results hint at a new class of bio-inspired sensors at the intersection of biology and quantum physics.
Scientists and engineers in DARPA’s Defense Sciences Office (DSO) promote and exploit new discoveries across the frontiers of physics, chemistry, and mathematics to identify and accelerate potentially game-changing technologies for U.S. national security. After recently spinning off biological technologies into a new office, DSO’s investment portfolio, which continues to create new materials and explore the boundaries of physical phenomena, is expanding to include novel approaches to understanding, predicting, designing, and developing engineered complex systems.