Difference between revisions of "Andrew Byun"
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===Teaching=== | ===Teaching=== | ||
− | General Physics I (PH141), Teaching | + | General Physics I (PH141), Teaching Assistant, Basic recitation class (2018 spring)<br> |
− | General Physics II (PH142), Teaching | + | General Physics II (PH142), Teaching Assistant (2018 fall)<br> |
− | Physics Lab. I (PH251), Teaching | + | Physics Lab. I (PH251), Teaching Assistant, Lab TA (2019 spring) |
===Publications=== | ===Publications=== |
Revision as of 05:49, 7 July 2022
Educations
KAIST. Integrated Master's & Ph.D. Program in Physics. (2018~)
Hanyang Univ. B.S. in Physics, Double major in Computer Science and Engineering. (2018)
Reserch Experiences
Integrated Master's & Ph.D. Program Program: Quantum Computing Lab, KAIST. (2018~)
- Coherent control using ultrafast laser include frequency comb.
- Fluorescence imaging using a holographic device.
- Quantum annealing of few-body Rydberg atom system.
Undergraduate Research Program: Elementary Particle Physics group, Hanyang Univ. (2017)
- Searching for Rare Decay of Top Quark Using Deep Learning
Teaching
General Physics I (PH141), Teaching Assistant, Basic recitation class (2018 spring)
General Physics II (PH142), Teaching Assistant (2018 fall)
Physics Lab. I (PH251), Teaching Assistant, Lab TA (2019 spring)
Publications
- Andrew Byun, Minhyuk Kim, and Jaewook Ahn, "Finding the maximum independent sets of Platonic graphs using Rydberg atoms," PRX Quantum, in press (2022).
Conference presentations
- Andrew Byun, Minhyuk Kim, and Jaewook Ahn, "Quantum simulation of 2D arranged Platonic graph Ising spins," E17.08, 2022 KPS Spring meeting, 2022.04.20-2022.04.22
Skills
Optical frequency comb (1 year), Numerical simulation of Rydberg dynamics
Programming: C(Knowledgeable), C++(Knowledgeable), Python(Basic understanding), Matlab(Knowledgeable), Labview(Basic understanding), Mathematica(Basic understanding)
Language: Korean(Native), English(Intermediate)