Friday 6th Dec | |
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9:00 am |
Keynote: Christine Charles
– Space plasma physics applied to smartphones, satellite propulsion and space debris removal |
9:15 am | |
9:30 am | |
9:45 am |
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10:00 am | |
10:15 am |
Friday 6th Dec | |
---|---|
9:00 am |
Keynote: Christine Charles
– Space plasma physics applied to smartphones, satellite propulsion and space debris removal |
9:15 am | |
9:30 am |
Friday 6th Dec | |
---|---|
9:45 am |
|
10:00 am | |
10:15 am |
Friday 6th Dec
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Keynote: Christine Charles
–
Space plasma physics applied to smartphones, satellite propulsion and space debris removal
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Keynote: Deb Kane
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Optical Surface Profiling at Micro/Nanoscopic Scale
Session VII
VII.1 Condensed Matter | VII.2 Particle Physics | VII.3 Quantum Computing | |
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11:00 am |
VII.1.1 Peter Jacobson
– Conformations and Trapping of Unidirectional Molecular Motors on TiO2 (110) |
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VII.3.1 Fabio Henriques
– Digital simulation of the quantum Rabi model phase transition in circuit QED |
11:15 am |
VII.3.2 Rory van Geleuken
– Decoherence and Localisation at the Wavefunction Level through Conditional Wave Theory |
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11:30 am |
VII.1.2 Martin Cyster
– Simulating the electrical response of aluminium oxide tunnel junctions in three dimensions: how atomic disorder leads to localised conduction channels |
VII.2.2 Michael Virgato
– Neutron Star Heating via the Capture, Thermalisation and Annihilation of Dark Matter |
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11:45 am |
|
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VII.3.4 Danielle Holmes
– Electrically Detected Magnetic Resonance of P in Si-28 Isotopically Enriched by High Fluence Ion Implantation |
12:00 pm |
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|
|
12:15 pm |
VII.1.5 Mykhailo Klymenko
– Probing charge transfer across HIOS interface by nanowire conductance spectroscopy |
VII.2.5 Innes Bigaran
– A near-minimal leptoquark model for reconciling flavour anomalies and generating radiative neutrino masses |
|
VII.1 Condensed Matter | VII.2 Particle Physics | VII.3 Quantum Computing | |
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11:00 am |
VII.1.1 Peter Jacobson
– Conformations and Trapping of Unidirectional Molecular Motors on TiO2 (110) |
||
11:15 am |
VII.1 Condensed Matter | VII.2 Particle Physics | VII.3 Quantum Computing | |
---|---|---|---|
11:30 am |
VII.1.2 Martin Cyster
– Simulating the electrical response of aluminium oxide tunnel junctions in three dimensions: how atomic disorder leads to localised conduction channels |
VII.1 Condensed Matter | VII.2 Particle Physics | VII.3 Quantum Computing | |
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11:45 am |
|
VII.1 Condensed Matter | VII.2 Particle Physics | VII.3 Quantum Computing | |
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12:00 pm |
|
VII.1 Condensed Matter | VII.2 Particle Physics | VII.3 Quantum Computing | |
---|---|---|---|
12:15 pm |
VII.1.5 Mykhailo Klymenko
– Probing charge transfer across HIOS interface by nanowire conductance spectroscopy |
VII.1 Condensed Matter | VII.2 Particle Physics | VII.3 Quantum Computing | |
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11:00 am |
|
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11:15 am |
VII.1 Condensed Matter | VII.2 Particle Physics | VII.3 Quantum Computing | |
---|---|---|---|
11:30 am |
VII.2.2 Michael Virgato
– Neutron Star Heating via the Capture, Thermalisation and Annihilation of Dark Matter |
VII.1 Condensed Matter | VII.2 Particle Physics | VII.3 Quantum Computing | |
---|---|---|---|
11:45 am |
|
VII.1 Condensed Matter | VII.2 Particle Physics | VII.3 Quantum Computing | |
---|---|---|---|
12:00 pm |
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VII.1 Condensed Matter | VII.2 Particle Physics | VII.3 Quantum Computing | |
---|---|---|---|
12:15 pm |
VII.2.5 Innes Bigaran
– A near-minimal leptoquark model for reconciling flavour anomalies and generating radiative neutrino masses |
VII.1 Condensed Matter | VII.2 Particle Physics | VII.3 Quantum Computing | |
---|---|---|---|
11:00 am |
VII.3.1 Fabio Henriques
– Digital simulation of the quantum Rabi model phase transition in circuit QED |
VII.1 Condensed Matter | VII.2 Particle Physics | VII.3 Quantum Computing | |
---|---|---|---|
11:15 am |
VII.3.2 Rory van Geleuken
– Decoherence and Localisation at the Wavefunction Level through Conditional Wave Theory |
VII.1 Condensed Matter | VII.2 Particle Physics | VII.3 Quantum Computing | |
---|---|---|---|
11:30 am |
|
VII.1 Condensed Matter | VII.2 Particle Physics | VII.3 Quantum Computing | |
---|---|---|---|
11:45 am |
VII.3.4 Danielle Holmes
– Electrically Detected Magnetic Resonance of P in Si-28 Isotopically Enriched by High Fluence Ion Implantation |
VII.1 Condensed Matter | VII.2 Particle Physics | VII.3 Quantum Computing | |
---|---|---|---|
12:00 pm |
|
VII.1 Condensed Matter | VII.2 Particle Physics | VII.3 Quantum Computing | |
---|---|---|---|
12:15 pm |
|
VII.1 Condensed Matter
-
VII.1.1 Peter Jacobson
–
Conformations and Trapping of Unidirectional Molecular Motors on TiO2 (110)
-
VII.1.2 Martin Cyster
–
Simulating the electrical response of aluminium oxide tunnel junctions in three dimensions: how atomic disorder leads to localised conduction channels
-
VII.1.3 Erin Grant
–
A Quantum-Based Nanoscale Sensor for Improved Detection of Ferritin-Bound Iron
-
VII.1.4 Jackson Smith
–
Models for electron transport in the two-dimensional allotropes of bismuth
-
VII.1.5 Mykhailo Klymenko
–
Probing charge transfer across HIOS interface by nanowire conductance spectroscopy
VII.2 Particle Physics
-
VII.2.1 Nicolas Menicucci
–
Detectors in Bandlimited Quantum Field Theory
-
VII.2.2 Michael Virgato
–
Neutron Star Heating via the Capture, Thermalisation and Annihilation of Dark Matter
-
VII.2.3 Ramtin Amintaheri
–
Electroweak Dark Matter
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VII.2.4 Isaac Sanderson
–
Solar Gamma Rays from Dark Matter Annihilating in the Sun
-
VII.2.5 Innes Bigaran
–
A near-minimal leptoquark model for reconciling flavour anomalies and generating radiative neutrino masses
VII.3 Quantum Computing
-
VII.3.1 Fabio Henriques
–
Digital simulation of the quantum Rabi model phase transition in circuit QED
-
VII.3.1 Fabio Henriques
–
Digital simulation of the quantum Rabi model phase transition in circuit QED
-
VII.3.2 Rory van Geleuken
–
Decoherence and Localisation at the Wavefunction Level through Conditional Wave Theory
-
VII.3.2 Rory van Geleuken
–
Decoherence and Localisation at the Wavefunction Level through Conditional Wave Theory
-
VII.3.3 Simon Robson
–
Low-energy Single Ion Detection for a Si:P Quantum Computing Architecture
-
VII.3.4 Danielle Holmes
–
Electrically Detected Magnetic Resonance of P in Si-28 Isotopically Enriched by High Fluence Ion Implantation
-
VII.3.5 Muhammad Usman
–
Characterization of atomic qubits in silicon by machine learning
-
VII.3.6 Lucas Mensen
–
Error correction in phase space for bosonically encoded qubits
Friday 6th Dec | |
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12:45 pm |
|
1:00 pm |
Friday 6th Dec | |
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12:45 pm |
|
1:00 pm |
Friday 6th Dec
-
AIP (Victoria branch) AGM
–
Location: 80.02.07
Session VIII
VIII.1 Condensed Matter | VIII.2 Biophysics | VIII.3 Space Physics | |
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1:30 pm |
VIII.1.1 Jennifer MacLeod
– Assemblies and reactions of small carboxylated molecules on metal surfaces |
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VIII.3.1 Daniel Liang
– Shape Memory Alloy Foils Used for Self-deployable Solar Arrays in Small Satellite Applications |
1:45 pm | |||
2:00 pm |
VIII.1.2 Thomas Raeber
– Amorphous Carbon-based Resistive Switching Devices for Neuromorphic Applications |
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2:15 pm |
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VIII.2.3 Ashleigh Solano
– Mapping DNA target search in the nucleus of a living cell by pair correlation of molecular brightness microscopy |
VIII.3.3 Liam Moshovelis
– Shielding materials for protection of humans against radiation in Low-Earth Orbit and lunar orbit |
2:30 pm |
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|
|
2:45 pm |
|
VIII.1 Condensed Matter | VIII.2 Biophysics | VIII.3 Space Physics | |
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1:30 pm |
VIII.1.1 Jennifer MacLeod
– Assemblies and reactions of small carboxylated molecules on metal surfaces |
||
1:45 pm |
VIII.1 Condensed Matter | VIII.2 Biophysics | VIII.3 Space Physics | |
---|---|---|---|
2:00 pm |
VIII.1.2 Thomas Raeber
– Amorphous Carbon-based Resistive Switching Devices for Neuromorphic Applications |
VIII.1 Condensed Matter | VIII.2 Biophysics | VIII.3 Space Physics | |
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2:15 pm |
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VIII.1 Condensed Matter | VIII.2 Biophysics | VIII.3 Space Physics | |
---|---|---|---|
2:30 pm |
|
VIII.1 Condensed Matter | VIII.2 Biophysics | VIII.3 Space Physics | |
---|---|---|---|
2:45 pm |
|
VIII.1 Condensed Matter | VIII.2 Biophysics | VIII.3 Space Physics | |
---|---|---|---|
1:30 pm |
|
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1:45 pm |
VIII.1 Condensed Matter | VIII.2 Biophysics | VIII.3 Space Physics | |
---|---|---|---|
2:00 pm |
|
VIII.1 Condensed Matter | VIII.2 Biophysics | VIII.3 Space Physics | |
---|---|---|---|
2:15 pm |
VIII.2.3 Ashleigh Solano
– Mapping DNA target search in the nucleus of a living cell by pair correlation of molecular brightness microscopy |
VIII.1 Condensed Matter | VIII.2 Biophysics | VIII.3 Space Physics | |
---|---|---|---|
2:30 pm |
|
VIII.1 Condensed Matter | VIII.2 Biophysics | VIII.3 Space Physics | |
---|---|---|---|
1:30 pm |
VIII.3.1 Daniel Liang
– Shape Memory Alloy Foils Used for Self-deployable Solar Arrays in Small Satellite Applications |
||
1:45 pm |
VIII.1 Condensed Matter | VIII.2 Biophysics | VIII.3 Space Physics | |
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2:00 pm |
|
VIII.1 Condensed Matter | VIII.2 Biophysics | VIII.3 Space Physics | |
---|---|---|---|
2:15 pm |
VIII.3.3 Liam Moshovelis
– Shielding materials for protection of humans against radiation in Low-Earth Orbit and lunar orbit |
VIII.1 Condensed Matter
-
VIII.1.1 Jennifer MacLeod
–
Assemblies and reactions of small carboxylated molecules on metal surfaces
-
VIII.1.2 Thomas Raeber
–
Amorphous Carbon-based Resistive Switching Devices for Neuromorphic Applications
-
VIII.1.3 Sherman Wong
–
Shear-driven Transformation in Carbon under Extreme Pressure
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VIII.1.4 Joel Hochstetter
–
Emergent Collective Dynamics in Neuromorphic Nanowire Networks
-
VIII.1.5 Rahil Valani
–
Superwalking droplets
VIII.2 Biophysics
-
VIII.2.1 Brian Abbey
–
Quantitative biological and birefringent imaging via optical ptychography
-
VIII.2.2 Jieqiong Lou
–
Stepwise 53BP1 foci assembly in response to DNA double strand break.
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VIII.2.3 Ashleigh Solano
–
Mapping DNA target search in the nucleus of a living cell by pair correlation of molecular brightness microscopy
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VIII.2.4 Fang-Yi Su
–
A real-time dosimeter for DaRT Cancer Treatment
VIII.3 Space Physics
-
VIII.3.1 Daniel Liang
–
Shape Memory Alloy Foils Used for Self-deployable Solar Arrays in Small Satellite Applications
-
VIII.3.2 Gail Iles
–
Space Physics projects at RMIT
-
VIII.3.3 Liam Moshovelis
–
Shielding materials for protection of humans against radiation in Low-Earth Orbit and lunar orbit