Relating string theory and particle physics. Currently, string theory is the only consistent candidate to provide unification of gravity with the other fundamental interactions. This project will discover a deeper interplay between string theory and elementary particle physics that would bring string theory closer to the real world.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100042
Funder
Australian Research Council
Funding Amount
$621,834.00
Summary
Australian dark matter detector for high mass axions. This project aims to provide the necessary equipment to allow an Australian Dark Matter Axion Haloscope, with significantly increased sensitivity by providing a milliKelvin environment and a 14 T magnet to drive axion-to-photon conversions. Dark matter is a fundamental component of the universe yet the nature of its composition is still unknown. There is growing evidence that it is comprised of axions, a low energy, weakly interacting particl ....Australian dark matter detector for high mass axions. This project aims to provide the necessary equipment to allow an Australian Dark Matter Axion Haloscope, with significantly increased sensitivity by providing a milliKelvin environment and a 14 T magnet to drive axion-to-photon conversions. Dark matter is a fundamental component of the universe yet the nature of its composition is still unknown. There is growing evidence that it is comprised of axions, a low energy, weakly interacting particle. The precision measurement tools developed by this project will have the potential to contribute both to the economy, via commercialisation, and to national security, via future applications to radar, communication and the development of engineered quantum systems.Read moreRead less
Violation of fundamental symmetries in atomic phenomena. Violation of the fundamental symmetries is predicted by unification theories of elementary particles. The aim of this project is to propose new enhanced effects of parity, time reversal and Lorentz invariance violations and perform their calculations needed to test unification theories in atomic and nuclear phenomena. By-products of this project include development of high precision computer codes for atomic calculations and theory of pro ....Violation of fundamental symmetries in atomic phenomena. Violation of the fundamental symmetries is predicted by unification theories of elementary particles. The aim of this project is to propose new enhanced effects of parity, time reversal and Lorentz invariance violations and perform their calculations needed to test unification theories in atomic and nuclear phenomena. By-products of this project include development of high precision computer codes for atomic calculations and theory of processes involving atoms and nuclei in chaotic excited states. These codes and theory are expected to have numerous applications (e.g. search for Dark Matter and atomic spectra of superheavy elements, atomic clocks and electron and photon processes).
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From dark matter to atomic physics. Very little is known about dark matter except that it is present in our Universe in abundance. The project aims to guide the search for dark matter particles (and study related phenomena, for example, baryogenesis). The guiding idea is that these particles interact, albeit weakly, with atoms and hence are able to ionise them, which is a detectable process.
Many-body phenomena in atomic and subatomic physics. The project proposes research in the following areas: search for Dark Matter and Dark Energy using atomic experiments; an enhancement mechanism of baryogenesis based on the new class of gauge theory solutions; new quantum effects in strong gravitational fields and phenomena in non-black hole metric, which reproduce some properties of black holes; new phenomena in strong laser fields, which can help constructing high-frequency lasers; exchange- ....Many-body phenomena in atomic and subatomic physics. The project proposes research in the following areas: search for Dark Matter and Dark Energy using atomic experiments; an enhancement mechanism of baryogenesis based on the new class of gauge theory solutions; new quantum effects in strong gravitational fields and phenomena in non-black hole metric, which reproduce some properties of black holes; new phenomena in strong laser fields, which can help constructing high-frequency lasers; exchange-assisted tunneling; and, chaos-induced boost of electron recombination, charge transfer and weak interactions. The results based on proposed ideas will guide laboratory and astrophysical studies, help verify cosmological models and Unification theories.Read moreRead less
Atomic theory and search for new elementary particles. This project aims to propose new enhanced effects of hypothetical dark matter particles in atomic and astrophysical phenomena, perform calculations, and motivate new experiments with a higher sensitivity to these particles. The mass of dark matter in the Universe is five times that of ordinary matter, yet its nature is still unknown. This project also aims to improve calculations of the effects of dark matter searched for in underground labo ....Atomic theory and search for new elementary particles. This project aims to propose new enhanced effects of hypothetical dark matter particles in atomic and astrophysical phenomena, perform calculations, and motivate new experiments with a higher sensitivity to these particles. The mass of dark matter in the Universe is five times that of ordinary matter, yet its nature is still unknown. This project also aims to improve calculations of the effects of dark matter searched for in underground laboratories including the Australian Stawell laboratory. Relativistic and many-body effects may change the results by orders of magnitude, and proper account of them is important. This may be achieved using our computer codes for high-precision relativistic atomic many-body calculations.Read moreRead less
Manifestations of unification theories in atomic phenomena. The project aims to contribute to both fundamental science and its applications. The project proposes new ideas, methods and calculations to test unification theories using effects of violation of the fundamental symmetries P, T, Lorentz symmetry and the equivalence principle in atomic and molecular phenomena, and to search for space-time variation of the fundamental constants across the Universe using both astrophysical observations an ....Manifestations of unification theories in atomic phenomena. The project aims to contribute to both fundamental science and its applications. The project proposes new ideas, methods and calculations to test unification theories using effects of violation of the fundamental symmetries P, T, Lorentz symmetry and the equivalence principle in atomic and molecular phenomena, and to search for space-time variation of the fundamental constants across the Universe using both astrophysical observations and laboratory experiments. The outcomes of this project may lead to the proposal of new atomic, nuclear and molecular clocks and the calculations needed to estimate and improve the accuracy of these clocks.Read moreRead less
Excitation spectra of quantum chromodynamics. Just as quantum electrodynamics describes the quantum mechanical excitation spectra of atomic systems, quantum chromodynamics (QCD) describes the excitation spectra of quark and gluon systems, such as the proton. This project will resolve the interactions underpinning the excitations of QCD, as being investigated at international facilities.
Interplay of the forces of nature: electroweak and strong interactions. The Large Hadron Collider in Switzerland will search for new physics by smashing protons together at the highest energies ever created in the laboratory. This project will focus on complementary searches for new physics by investigating novel phenomena associated with the mutual interactions of the strong and weak forces of nature.