research
I joined John Martinis's group at UCSB in June 2005. We're working on quantum computing using superconducting Josephson junction phase qubits. The quantum computing roadmap has some interesting info about the current state and future prospects of quantum computing.
TA
- fall 2004: physics 3 (Prof. Claudio Campagnari)
- winter 2005: (CCS) physics 32 (Prof. Francesc Roig)
- spring 2005: (CCS) physics 33 (Prof. Francesc Roig)
- fall 2005: (CCS) physics 34 (Prof. Francesc Roig)
- winter 2006: (CCS) physics 35
- spring 2006: (CCS) physics 36
courses
- fall 2004:
- 205 - classical mechanics (Prof. James Hartle)
- 215A - quantum mechanics, I (Prof. Incandela)
- winter 2005:
- 210A - e+m, I (Prof. James Hartle)
- 215B - quantum mechanics, II (Prof. Incandela)
- 217A - many-body quantum mechanics, I (Prof. Andreas Ludwig)
- eres for notes/problem sets
- spring 2005:
- 210B - e+m, II (Prof. Doug Eardley)
- 215C - quantum mechanics III (Prof. Incandela)
- 217B - many-body quantum mechanics, II (Prof. Matthew Fisher)
- fall 2005:
- 221A - Relativistic QFT I (Prof. Steve Giddings)
- 223A - Condensed Matter I (Prof. Leon Balents)
- 231A - General Relativity I (Prof. Gary Horowitz)
- winter 2006:
- 223B - Condensed Matter II
- spring 2006: done with classes! That means more time in the lab, and the cleanroom.