13:30 – 15:00 Thursday 5th December 2019
| Location: | Lecture Theatre 1 80.02.07 | Lecture Theatre 2 80.02.02 | Seminar 1 80.02.03 | |
| Chair: | Jared Cole | Peter Skands | Jasmina Lazendic-Galloway |
| V.1 Condensed Matter | V.2 Particle Physics | V.3 Education | |
|---|---|---|---|
| 1:30 pm |
V.1.1 Charlotte Petersen
Effects of quasi-confinement on a fluid |
V.2.1 Martin Sevior
Prospects for discovering New Physics at the Belle II experiment |
V.3.1 Maria Parapilly
STEM Enrichment: A Program to Enhance Year Nine Students’ Interest in Physics |
| 1:45 pm | |||
| 2:00 pm |
V.1.2 Andrew Martin
Probing disordered nanostructure in 3D with X-ray free-electron lasers |
V.2.2 Jo-Frederik Krohn
Particle decay vertex resolution studies with the Belle II Detector |
V.3.2 Paul Smith
The Graviton: where GR meets QFT |
| 2:15 pm |
V.1.3 Gerard Hinsley
Visualisation of dynamic processes using multidimensional coherent X-ray imaging |
V.2.3 Daniel Ferlewicz
Measuring |Vcb| using fits to B0 → D* l v decays at Belle |
V.3.3 Srividya Durga Kota
Integrating technology with model-based inquiry in undergraduate physics experiment on waves |
| 2:30 pm |
V.1.4 Gary Bryant
Understanding dynamics in complex suspensions using Light Scattering and Differential Dynamic Microscopy |
V.2.4 Francis Pham
Hadronic B decay recontruction in Phase 3 data at Belle II |
V.3.4 Theo Hughes
Moving clocks do not run slow |
| 2:45 pm |
V.1.5 Ruomin Zhu
Signal Transduction and Information Dynamics in Neuromorphic Nanowire Networks |
V.2.5 Cate MacQueen
A Flavour Search for Axion-Like Particles in e+e- Collisions at the Belle Experiment |
| V.1 Condensed Matter | V.2 Particle Physics | V.3 Education | |
|---|---|---|---|
| 1:30 pm |
V.1.1 Charlotte Petersen
Effects of quasi-confinement on a fluid |
||
| 1:45 pm |
| V.1 Condensed Matter | V.2 Particle Physics | V.3 Education | |
|---|---|---|---|
| 2:00 pm |
V.1.2 Andrew Martin
Probing disordered nanostructure in 3D with X-ray free-electron lasers |
| V.1 Condensed Matter | V.2 Particle Physics | V.3 Education | |
|---|---|---|---|
| 2:15 pm |
V.1.3 Gerard Hinsley
Visualisation of dynamic processes using multidimensional coherent X-ray imaging |
| V.1 Condensed Matter | V.2 Particle Physics | V.3 Education | |
|---|---|---|---|
| 2:30 pm |
V.1.4 Gary Bryant
Understanding dynamics in complex suspensions using Light Scattering and Differential Dynamic Microscopy |
| V.1 Condensed Matter | V.2 Particle Physics | V.3 Education | |
|---|---|---|---|
| 2:45 pm |
V.1.5 Ruomin Zhu
Signal Transduction and Information Dynamics in Neuromorphic Nanowire Networks |
| V.1 Condensed Matter | V.2 Particle Physics | V.3 Education | |
|---|---|---|---|
| 1:30 pm |
V.2.1 Martin Sevior
Prospects for discovering New Physics at the Belle II experiment |
||
| 1:45 pm |
| V.1 Condensed Matter | V.2 Particle Physics | V.3 Education | |
|---|---|---|---|
| 2:00 pm |
V.2.2 Jo-Frederik Krohn
Particle decay vertex resolution studies with the Belle II Detector |
| V.1 Condensed Matter | V.2 Particle Physics | V.3 Education | |
|---|---|---|---|
| 2:15 pm |
V.2.3 Daniel Ferlewicz
Measuring |Vcb| using fits to B0 → D* l v decays at Belle |
| V.1 Condensed Matter | V.2 Particle Physics | V.3 Education | |
|---|---|---|---|
| 2:30 pm |
V.2.4 Francis Pham
Hadronic B decay recontruction in Phase 3 data at Belle II |
| V.1 Condensed Matter | V.2 Particle Physics | V.3 Education | |
|---|---|---|---|
| 2:45 pm |
V.2.5 Cate MacQueen
A Flavour Search for Axion-Like Particles in e+e- Collisions at the Belle Experiment |
| V.1 Condensed Matter | V.2 Particle Physics | V.3 Education | |
|---|---|---|---|
| 1:30 pm |
V.3.1 Maria Parapilly
STEM Enrichment: A Program to Enhance Year Nine Students’ Interest in Physics |
||
| 1:45 pm |
| V.1 Condensed Matter | V.2 Particle Physics | V.3 Education | |
|---|---|---|---|
| 2:00 pm |
V.3.2 Paul Smith
The Graviton: where GR meets QFT |
| V.1 Condensed Matter | V.2 Particle Physics | V.3 Education | |
|---|---|---|---|
| 2:15 pm |
V.3.3 Srividya Durga Kota
Integrating technology with model-based inquiry in undergraduate physics experiment on waves |
| V.1 Condensed Matter | V.2 Particle Physics | V.3 Education | |
|---|---|---|---|
| 2:30 pm |
V.3.4 Theo Hughes
Moving clocks do not run slow |
V.1 Condensed Matter
-
V.1.1 Charlotte Petersen
Effects of quasi-confinement on a fluid
-
V.1.2 Andrew Martin
Probing disordered nanostructure in 3D with X-ray free-electron lasers
-
V.1.3 Gerard Hinsley
Visualisation of dynamic processes using multidimensional coherent X-ray imaging
-
V.1.4 Gary Bryant
Understanding dynamics in complex suspensions using Light Scattering and Differential Dynamic Microscopy
-
V.1.5 Ruomin Zhu
Signal Transduction and Information Dynamics in Neuromorphic Nanowire Networks
V.2 Particle Physics
-
V.2.1 Martin Sevior
Prospects for discovering New Physics at the Belle II experiment
-
V.2.2 Jo-Frederik Krohn
Particle decay vertex resolution studies with the Belle II Detector
-
V.2.3 Daniel Ferlewicz
Measuring |Vcb| using fits to B0 → D* l v decays at Belle
-
V.2.4 Francis Pham
Hadronic B decay recontruction in Phase 3 data at Belle II
-
V.2.5 Cate MacQueen
A Flavour Search for Axion-Like Particles in e+e- Collisions at the Belle Experiment
V.3 Education
-
V.3.1 Maria Parapilly
STEM Enrichment: A Program to Enhance Year Nine Students’ Interest in Physics
-
V.3.2 Paul Smith
The Graviton: where GR meets QFT
-
V.3.3 Srividya Durga Kota
Integrating technology with model-based inquiry in undergraduate physics experiment on waves
-
V.3.4 Theo Hughes
Moving clocks do not run slow