15:30 – 17:00 Wednesday 4th December 2019
Location: | Lecture Theatre 1 80.02.07 | Lecture Theatre 2 80.02.02 | Seminar 1 80.02.03 | |
Chair: | Allan MacDonald | Martin Sevior | Charles Hill |
III.1 Condensed Matter | III.2 Particle Physics | III.3 Quantum Computing | |
---|---|---|---|
3:30 pm |
III.1.1 Oleg Tretiakov
Antiferromagnetic Spintronics with Topological Solitons |
III.2.1 Peter Skands
Top Physics and Colour |
III.3.1 Francesco Campaioli
Operational Interpretation of Time-Energy Uncertainty Relations |
3:45 pm |
III.3.2 Felix Pollock
Quantum Markov order, memory strength and reconstruction of quantum stochastic processes |
||
4:00 pm |
III.1.2 Samuel Yick
Probing the Dynamics of Skyrmions in Cu2OSeO3 |
III.2.2 Sangeet Kumar
Effect of Nucleon Dressing on the Triton Binding Energy |
III.3.3 Rafael Alexander
Quantum-Computing Architecture based on Large-Scale Multi-Dimensional Continuous-Variable Cluster States in a Scalable Photonic Platform |
4:15 pm |
III.1.3 David Mikhail
Quantum multicritical behavior and emergent symmetry in (2+1)-dimensional Dirac systems |
III.2.3 Jordan Wray
Convolution Approach to the pi NN System |
III.3.4 Giacomo Pantaleoni
Modular Bosonic Subsystem Codes |
4:30 pm |
III.1.4 Jamie Booth
A Mathematical Description of Phase Transitions at Strong Coupling |
III.3.5 Blayney Walshe
Robust fault tolerance for continuous-variable cluster states with excess antisqueezing |
|
4:45 pm |
III.3.6 Ben Baragiola
All-Gaussian fault-tolerant universality with the Gottesman-Kitaev-Preskill code |
III.1 Condensed Matter | III.2 Particle Physics | III.3 Quantum Computing | |
---|---|---|---|
3:30 pm |
III.1.1 Oleg Tretiakov
Antiferromagnetic Spintronics with Topological Solitons |
||
3:45 pm |
III.1 Condensed Matter | III.2 Particle Physics | III.3 Quantum Computing | |
---|---|---|---|
4:00 pm |
III.1.2 Samuel Yick
Probing the Dynamics of Skyrmions in Cu2OSeO3 |
III.1 Condensed Matter | III.2 Particle Physics | III.3 Quantum Computing | |
---|---|---|---|
4:15 pm |
III.1.3 David Mikhail
Quantum multicritical behavior and emergent symmetry in (2+1)-dimensional Dirac systems |
III.1 Condensed Matter | III.2 Particle Physics | III.3 Quantum Computing | |
---|---|---|---|
4:30 pm |
III.1.4 Jamie Booth
A Mathematical Description of Phase Transitions at Strong Coupling |
III.1 Condensed Matter | III.2 Particle Physics | III.3 Quantum Computing | |
---|---|---|---|
3:30 pm |
III.2.1 Peter Skands
Top Physics and Colour |
||
3:45 pm |
III.1 Condensed Matter | III.2 Particle Physics | III.3 Quantum Computing | |
---|---|---|---|
4:00 pm |
III.2.2 Sangeet Kumar
Effect of Nucleon Dressing on the Triton Binding Energy |
III.1 Condensed Matter | III.2 Particle Physics | III.3 Quantum Computing | |
---|---|---|---|
4:15 pm |
III.2.3 Jordan Wray
Convolution Approach to the pi NN System |
III.1 Condensed Matter | III.2 Particle Physics | III.3 Quantum Computing | |
---|---|---|---|
3:30 pm |
III.3.1 Francesco Campaioli
Operational Interpretation of Time-Energy Uncertainty Relations |
III.1 Condensed Matter | III.2 Particle Physics | III.3 Quantum Computing | |
---|---|---|---|
3:45 pm |
III.3.2 Felix Pollock
Quantum Markov order, memory strength and reconstruction of quantum stochastic processes |
III.1 Condensed Matter | III.2 Particle Physics | III.3 Quantum Computing | |
---|---|---|---|
4:00 pm |
III.3.3 Rafael Alexander
Quantum-Computing Architecture based on Large-Scale Multi-Dimensional Continuous-Variable Cluster States in a Scalable Photonic Platform |
III.1 Condensed Matter | III.2 Particle Physics | III.3 Quantum Computing | |
---|---|---|---|
4:15 pm |
III.3.4 Giacomo Pantaleoni
Modular Bosonic Subsystem Codes |
III.1 Condensed Matter | III.2 Particle Physics | III.3 Quantum Computing | |
---|---|---|---|
4:30 pm |
III.3.5 Blayney Walshe
Robust fault tolerance for continuous-variable cluster states with excess antisqueezing |
III.1 Condensed Matter | III.2 Particle Physics | III.3 Quantum Computing | |
---|---|---|---|
4:45 pm |
III.3.6 Ben Baragiola
All-Gaussian fault-tolerant universality with the Gottesman-Kitaev-Preskill code |
III.1 Condensed Matter
-
III.1.1 Oleg Tretiakov
Antiferromagnetic Spintronics with Topological Solitons
-
III.1.2 Samuel Yick
Probing the Dynamics of Skyrmions in Cu2OSeO3
-
III.1.3 David Mikhail
Quantum multicritical behavior and emergent symmetry in (2+1)-dimensional Dirac systems
-
III.1.4 Jamie Booth
A Mathematical Description of Phase Transitions at Strong Coupling
III.2 Particle Physics
-
III.2.1 Peter Skands
Top Physics and Colour
-
III.2.2 Sangeet Kumar
Effect of Nucleon Dressing on the Triton Binding Energy
-
III.2.3 Jordan Wray
Convolution Approach to the pi NN System
III.3 Quantum Computing
-
III.3.1 Francesco Campaioli
Operational Interpretation of Time-Energy Uncertainty Relations
-
III.3.2 Felix Pollock
Quantum Markov order, memory strength and reconstruction of quantum stochastic processes
-
III.3.3 Rafael Alexander
Quantum-Computing Architecture based on Large-Scale Multi-Dimensional Continuous-Variable Cluster States in a Scalable Photonic Platform
-
III.3.4 Giacomo Pantaleoni
Modular Bosonic Subsystem Codes
-
III.3.5 Blayney Walshe
Robust fault tolerance for continuous-variable cluster states with excess antisqueezing
-
III.3.6 Ben Baragiola
All-Gaussian fault-tolerant universality with the Gottesman-Kitaev-Preskill code