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Daniel Craft, Dr. John Colton, Tyler Park, Phil White, Brigham Young University.

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Presentation on theme: "Daniel Craft, Dr. John Colton, Tyler Park, Phil White, Brigham Young University."— Presentation transcript:

1 Daniel Craft, Dr. John Colton, Tyler Park, Phil White, Brigham Young University

2  Quantum states are the “1”s and “0”s of a classical computer  Certain tasks—like factoring large numbers—are exponentially faster  Must understand quantum states Jun Li et al, Sci. Rep. 2012/02/10 online

3  Tiny, energetically and spatially constrained structures: 2-10 nm  Quantum computers with interacting quantum dots that have an extra electron  Fast, optical control  Evidence of long lifetimes relative to control

4 % Pol=%Low-% High

5  Linearly polarized light rotates  Must be parallel with magnetic polarization of sample  More magnetic polarization means more rotation Wikipedia: Faraday Effect

6 Power Stabilizer B  Probe-942nm AOM Linear Polarizer Photoelastic Modulator Signal to Lockin amplifier Chopper Polarizing Beam Splitter Balanced Detector

7 Beginning of Period End of Period Time Pump Pulse Probe

8 T1=359 ns

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10

11

12 Power Stabilizer B  942 nm AOM Linear Polarizer PEM Signal to Lock-in Amplifier Chopper Sample Balanced Detector Polarizing Beam Splitter

13

14  Same oscillations?  Does frequency change with laser power?  Does it change with pump pulse width?

15  Quantum computing potential depends on understanding quantum dots  We measure spin lifetimes using the Faraday effect  We saw oscillating spin polarization instead of decay  We need to do further tests

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