Probing Electron Dynamics in the Molecular Frame. The outcome of this project will be an improved understanding of the molecular fragmentation process, enhancing our ability to control chemical reactions through a better knowledge of the mechanisms which drive them. By providing data which will stimulate the development of theory it will encourage creativity and innovation. Results will contribute to building a strong foundation in the fundamental physical sciences and lead to advances in area ....Probing Electron Dynamics in the Molecular Frame. The outcome of this project will be an improved understanding of the molecular fragmentation process, enhancing our ability to control chemical reactions through a better knowledge of the mechanisms which drive them. By providing data which will stimulate the development of theory it will encourage creativity and innovation. Results will contribute to building a strong foundation in the fundamental physical sciences and lead to advances in areas ranging from quantum chemistry, the chemistry of planetary atmospheres to mechanisms responsible for radiation damage in biological systems.Read moreRead less
Revealing the mechanism of heavy ion stopping at high energies. Several fundamental aspects of heavy ion stopping in matter, which is important for many technological and medical applications, are not understood. This includes the charge dependence of ion stopping known as Barkas effect, the Bloch-contribution to the stopping cross-section, and charge exchange processes. In contrast to other studies, the use of crystalline materials with well-defined atom locations and the application of new sop ....Revealing the mechanism of heavy ion stopping at high energies. Several fundamental aspects of heavy ion stopping in matter, which is important for many technological and medical applications, are not understood. This includes the charge dependence of ion stopping known as Barkas effect, the Bloch-contribution to the stopping cross-section, and charge exchange processes. In contrast to other studies, the use of crystalline materials with well-defined atom locations and the application of new sophisticated models will allow the separation of these related phenomena, so that they can be studied individually. This will reveal details of the physical mechanisms governing the energy dissipation by fast heavy ions in matter.
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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882531
Funder
Australian Research Council
Funding Amount
$250,000.00
Summary
Quantum Limited Single Atom Detectors. The technology that has shaped our society, solid state diodes, transistors and computer chips is based on our ability to manipulate the average quantum properties of materials such as semiconductors. This physics has been well understood for decades. Many technologies that will shape our societies in this century will be based on our ability to manipulate quantum systems precisely, an area that is the focus of quantum atom optics. The detectors requested i ....Quantum Limited Single Atom Detectors. The technology that has shaped our society, solid state diodes, transistors and computer chips is based on our ability to manipulate the average quantum properties of materials such as semiconductors. This physics has been well understood for decades. Many technologies that will shape our societies in this century will be based on our ability to manipulate quantum systems precisely, an area that is the focus of quantum atom optics. The detectors requested in this proposal will ensure that Australia remains competitive in the technologies that will emerge from the new field of quantum atom optics.Read moreRead less
The first pumped atom laser. Optical lasers, the source of coherent light waves, have enabled the development of photonic science and technology. Recent realization of a new ultra-cold state of matter - a Bose-Einstein condensate - has led to the creation of prototype atom lasers. These are sources of coherent waves of matter for next generation quantum photonics and atom optics. The existing prototypes are analogous to an optical laser that has been turned off, with the atoms source quickly ....The first pumped atom laser. Optical lasers, the source of coherent light waves, have enabled the development of photonic science and technology. Recent realization of a new ultra-cold state of matter - a Bose-Einstein condensate - has led to the creation of prototype atom lasers. These are sources of coherent waves of matter for next generation quantum photonics and atom optics. The existing prototypes are analogous to an optical laser that has been turned off, with the atoms source quickly draining. This experimental project is devoted to the development and construction of a truly continuous pumped atom laser.Read moreRead less
Quantum Entanglement of Protons Studied by Electron Scattering at High Momentum Transfer. Eighty years after the establishment of quantum mechanics protons in matter are still largely seen as 'classical' particles, that do not interfere in ways known to occur for light and electrons. There are indications from neutron and electron scattering experiments from solids that, for extremely short time scales, (one-millionth of a nanosecond), this picture is too simple. The proposed experiment seeks t ....Quantum Entanglement of Protons Studied by Electron Scattering at High Momentum Transfer. Eighty years after the establishment of quantum mechanics protons in matter are still largely seen as 'classical' particles, that do not interfere in ways known to occur for light and electrons. There are indications from neutron and electron scattering experiments from solids that, for extremely short time scales, (one-millionth of a nanosecond), this picture is too simple. The proposed experiment seeks to establish this fact for molecules in the gas-phase. As the chemical bond is formed at similar time-scales these experiments will improve our understanding of chemical reactions, and hence be of great value for the chemical industry.Read moreRead less
Dynamic Correlations and Coherence Effects in Two-Electron Emission Processes. The electronic structure and properties of matter are determined by the correlated motion of electrons. Thus an understanding of this quantum mechanical many-body problem is central to our understanding of nature. We will apply laser-based quantum-state-selective techniques and advanced instrumentation to uncover new phenomena in many-body spin-correlated electron dynamics, quantum coherence and entanglement. The resu ....Dynamic Correlations and Coherence Effects in Two-Electron Emission Processes. The electronic structure and properties of matter are determined by the correlated motion of electrons. Thus an understanding of this quantum mechanical many-body problem is central to our understanding of nature. We will apply laser-based quantum-state-selective techniques and advanced instrumentation to uncover new phenomena in many-body spin-correlated electron dynamics, quantum coherence and entanglement. The resulting benchmark data will force significant developments in theory, extending its predictive power to drive advancements in areas ranging from industrial and astrophysical plasmas, gas discharges, lasers, and planetary atmospheres, to nanoscale electronic and spintronic devices.Read moreRead less
Australian Centre for Quantum-Atom Optics. The Centre will combine pre-eminent Australian theoretical and experimental research groups in quantum and atom optics to create a powerful network to advance the rapidly developing field of Quantum-Atom Optics. We will exploit the quantum nature of multiple particle quantum states of atoms and photons including entangled light and Bose-Einstein condensates. The Centre will focus on fundamental research, but our long term goal is to underpin and develo ....Australian Centre for Quantum-Atom Optics. The Centre will combine pre-eminent Australian theoretical and experimental research groups in quantum and atom optics to create a powerful network to advance the rapidly developing field of Quantum-Atom Optics. We will exploit the quantum nature of multiple particle quantum states of atoms and photons including entangled light and Bose-Einstein condensates. The Centre will focus on fundamental research, but our long term goal is to underpin and develop the next generation quantum technology. We aim to build a quantum toolbox to enable applications such as the transfer and storage of information for photonics, and precision quantum control of atoms for enhanced atom interferometry.Read moreRead less
Precision Measurement of Highly Excited Atoms and Molecules: From the Infrared to the Vacuum Ultraviolet. Precise measurements of the structure and dynamics of atomic and molecular systems provide important benchmarks against which our fundamental understanding of matter can be tested. Such measurements also provide reference standards, with applications in many subfields (e.g. testing theories that indicate time dependence of the fundamental constants). Determination of the behaviour of simple ....Precision Measurement of Highly Excited Atoms and Molecules: From the Infrared to the Vacuum Ultraviolet. Precise measurements of the structure and dynamics of atomic and molecular systems provide important benchmarks against which our fundamental understanding of matter can be tested. Such measurements also provide reference standards, with applications in many subfields (e.g. testing theories that indicate time dependence of the fundamental constants). Determination of the behaviour of simple molecules such as oxygen and nitrogen is important for understanding the complex processes that shape the atmosphere of the earth and other planets. These experiments will also enable the understanding of other chemical processes, and will build on our strengths in developing precision laser technologies.Read moreRead less
Quantum Simulations with Dilute Gas Bose Einstein Condensates. Fundamental scientific research, such as we propose, is an important contributor to the long term wealth and well being of the Nation. It shapes our culture, our ways of thinking, and our beliefs. It also contributes directly, and in the shorter term, through the technology development that accompanies scientific research at the frontiers of knowledge. The students participating in this research will develop skills in innovation, int ....Quantum Simulations with Dilute Gas Bose Einstein Condensates. Fundamental scientific research, such as we propose, is an important contributor to the long term wealth and well being of the Nation. It shapes our culture, our ways of thinking, and our beliefs. It also contributes directly, and in the shorter term, through the technology development that accompanies scientific research at the frontiers of knowledge. The students participating in this research will develop skills in innovation, intellectual property management, and commercialisation - all of which are critical to the Nation's future.Read moreRead less
Advanced Atomic Sources for Precision Measurement. Many advances in our technology-driven society rely on the precision measurement of quantities such as accelerations, magnetic and electric fields. A higher level of measurement precision leads to a clear economic or strategic advantage. We expect to provide the Australian industrial and government sectors with new and better methods for making precise measurements with accelerometers, gyroscopes and gravity gradiometers. This proposal will pla ....Advanced Atomic Sources for Precision Measurement. Many advances in our technology-driven society rely on the precision measurement of quantities such as accelerations, magnetic and electric fields. A higher level of measurement precision leads to a clear economic or strategic advantage. We expect to provide the Australian industrial and government sectors with new and better methods for making precise measurements with accelerometers, gyroscopes and gravity gradiometers. This proposal will place Australia with only a handful of other countries as an international leader in the new technology of coherent atom interferometry. It is expected that this proposal will lead to innovative prototype devices as well as significant patentable technology. Read moreRead less