Prof. Justin Perron, California State Univ. San Marcos, Options for Novel Quantum Education Programs
Quantum Engineering at Mines
Prof. Justin Perron, California State Univ. San Marcos, Options for Novel Quantum Education Programs
25:11
Prof. Doyle Temple, Norfolk State Univ., Center for Research & Ed. in Quantum Leap Science and Tech.
Quantum Engineering at Mines
Prof. Doyle Temple, Norfolk State Univ., Center for Research & Ed. in Quantum Leap Science and Tech.
25:23
Prof. Ivan Deutsch, Center for Interdisciplinary Research in Quantum Information Science, Univ of NM
Quantum Engineering at Mines
Prof. Ivan Deutsch, Center for Interdisciplinary Research in Quantum Information Science, Univ of NM
27:40
Prof. Javier Yamagishi, Eddleman Quantum Institute
Quantum Engineering at Mines
Prof. Javier Yamagishi, Eddleman Quantum Institute
26:19
Prof. Gour Pati, Center of Excellence in Advanced Sensing, Delaware State University
Quantum Engineering at Mines
Prof. Gour Pati, Center of Excellence in Advanced Sensing, Delaware State University
25:43
Transition Metal Impurities in Silicon: Computational Search for Semiconductor Qubits
Quantum Engineering at Mines
Transition Metal Impurities in Silicon: Computational Search for Semiconductor Qubits
9:26
Tunable Capacitor for Superconducting Qubits Using an InAs/InGaAs Heterostructure
Quantum Engineering at Mines
Tunable Capacitor for Superconducting Qubits Using an InAs/InGaAs Heterostructure
10:35
Interferometer Networks
Quantum Engineering at Mines
Interferometer Networks
11:30
Simulation of Fractional Schrödinger Equation in Materials with Sub- and Super-Diffusive Transport
Quantum Engineering at Mines
Simulation of Fractional Schrödinger Equation in Materials with Sub- and Super-Diffusive Transport
11:21
Investigating the Speed Limit of Two-Qubit Entangling Gates with Superconducting Qubits
Quantum Engineering at Mines
Investigating the Speed Limit of Two-Qubit Entangling Gates with Superconducting Qubits
10:23
Complex Network Description of Phase Transitions in Disordered Classical and Quantum Ising Model
Quantum Engineering at Mines
Complex Network Description of Phase Transitions in Disordered Classical and Quantum Ising Model
11:21
Scaling Symmetries and Conservation Laws in Fractional Quantum Mechanics
Quantum Engineering at Mines
Scaling Symmetries and Conservation Laws in Fractional Quantum Mechanics
13:45
Quantum Cellular Automata Part II
Quantum Engineering at Mines
Quantum Cellular Automata Part II
11:14
Quantum Cellular Automata Part 1
Quantum Engineering at Mines
Quantum Cellular Automata Part 1
15:12
The Application of Semantic Network Theory to Visual Art
Quantum Engineering at Mines
The Application of Semantic Network Theory to Visual Art
5:09
Fractals, Complexity Science, and the Visual Arts
Quantum Engineering at Mines
Fractals, Complexity Science, and the Visual Arts
5:54
Unsupervised Machine Learning of Quantum Phase Transitions Using Diffusion Maps
Quantum Engineering at Mines
Unsupervised Machine Learning of Quantum Phase Transitions Using Diffusion Maps
11:41
Lessons Learned
Quantum Engineering at Mines
Lessons Learned
1:29:53
Industry Tools for Education
Quantum Engineering at Mines
Industry Tools for Education
1:15:15
Building a Quantum Engineering Major/Minor
Quantum Engineering at Mines
Building a Quantum Engineering Major/Minor
1:18:26
Quantum Engineering in Practice
Quantum Engineering at Mines
Quantum Engineering in Practice
1:20:20
Introduction to Quantum Engineering
Quantum Engineering at Mines
Introduction to Quantum Engineering
1:42:04