Alain Bruguieres and Alexis Virelizier- Quantum Double of Hopf Monads and Categorical Centers
Quantum Information NV Centers in Diamondbudker.berkeley.edu/PhysicsH190_2011/QI and NV... ·...
Transcript of Quantum Information NV Centers in Diamondbudker.berkeley.edu/PhysicsH190_2011/QI and NV... ·...
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Quantum InformationNV Centers in Diamond
General Introduction
Zlatko Minev & Nate Earnest
April 2011
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QIP & QM & NVD Outline
• Interest in Qubits. Why?
• Quantum Information Motivation
– Qubit vs Bit
– Sqrt(Not)
• Computer Architecture
• DiVincenzo Criteria
• Violation of Bell’s Inequality with NVD
• NVD Ensembles & CPW
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Why care about Qubit Research?
Quantum System Emulator- solve molecules - study fundamental physicsQuantum Computer - certain parallel processing powerSpinoffs- ultra low noise amplifiers
Excellent Quantum Mechanics Test Bed- Study the scope of the theory of quantum mechanics- Probe for new phenomena- Engineer quantum systems with desired properties
Fundamental:Applied:
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Quantum InformationGeneral Introduction
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Encoding Information
Classically
Bits (1 or 0)
Quantumly
QuBits(1 and/or 0)
Using bits to encode #s. Using those #s to encode letters (each letter corresponds to a number), orPictures,Movies, Systems, etc.
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Classically
One Classical N Bit Register
2NRange:
Can store 1 Number
To Store N #s => N Registers
Quantumly
01&
One Quantum N Bit Register
2NRange:
Can store 2N Numbers
To Store N #s => 1 Register
... 000
0 1... 000
... 0000
01
0
1
1
1...
...
01
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F(x)
x
F(x)
Classically, F(x) would have had to be invoked 2N number of times. - Time of execution = 2N
RunTime( F(x) )
Quantumly, F(x) is invoked only 1 time. - Time of execution = 1 RunTime( F(x) )
Quantum Algorithms
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Consider Qubit…
+1
-1
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+1
-1
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Assuming whole # periods of wavelength traveled(from D. Deutsch Lectures)
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Effective NOT
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Sharp
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Sharp
+1
-1
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+1
-1
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+1
-1
IN
B
NOT
B
OUT
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This is our Operation
IN B NOT B OUT
B·NOT·B = 1
B-1 = NOTon 1 bit
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Computer Architecture
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Digital Computer Organization
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Bit by Bit
Sequential Computing
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DiVincenzo Criteria
• 5 criteria to build operational quantum computer– Well defined Qubits– Initiation into pure state– Universal set of Quantum Gates– Qubit-Specific Measurement– Long Coherence Times
• 2 additional criteria for quantum communication– Interconvert stationary and flying Qubits
• E.g. Repeater stations
– Transmit flying Qubits between distant locations• E.g. Error correction
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NV Diamond Qubit
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Violation of Bell’s Inequality Using NV Diamond
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Bell Inequality
• What is it?– A means of testing quantum mechanics
• Temporal versus Spatial inequalities• Temporal Bell Inequality (TBI) based on two
assumptions– Reality
• The state of a physical system is always well defined
– Stationarity• Conditional Probability of system to change to a new state
depends only on the time difference between two different measurements
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Temporal Inequality
• Conditional Probability– Qij(t1,t2)
• Bounds on strength of temporal correlations:
• Can be violated by quantum mechanical dynamics (i.e. Rabi Oscillations). – This will violate the realist description of the
physical dynamics and motivate the inherent truth of quantum mechanics
Qii(0,2t) Qii2(0,t) 0
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Set up for the diamond
• NV- vs NV0 centre
– 30% of the time in NV0
state
• Due to two photon ionization
– NV0 state hinders measurements to see Rabi Oscillations necessary to violate TBI
– Flash green light to put into excited NV- state
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Set up for the diamond
• Electron Spin destroyed during this process
– Nuclear Spin made robust with strong magnetic field (B=0.6T)
– Mapped onto electron state with CNOT-Gate
– Make quantum non-demolition (QND) measurement of Nuclear Spin:
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Set up for the diamond• Zero-Phonon Line (ZPL)
– NV0 is 575nm
– NV- is 637nm
• Wavelengths significantly greater than 575 will not induce fluorescence from NV0.
• Illuminate with orange light (600nm)
• Low power excitation
– Ionization rate of NV- decreases quadratically with power
– Fluorescence decreases linearly
• Allows us to measure fluorescence from NV- before it becomes ionized
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Resulting Measurements
• After choosing only NV- centres– Using the measurement sequence:
– Rabi Oscillations occur:
– Giving the resulting TBI graph
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VBI Conclusion• Violated TBI!
– Over 50 standard deviations
– Dynamics of single nuclear spin cannot be described by “realist theory”
• Quantum Mechanics stands strong!
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Future work
• 2 nuclear spin entanglement
– contextuality of quantum mechanics can be tested
• Non-contextuality: the property that any measurement has a value which is independent of other compatible measurements being made at the same time.
• Quantum Information and Processing
– Refining stability of NV-
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References
• G. Waldherr, P. Neumann, S. F. Huelga, F. Jelezko, J. Wrachtrup, arXiv:1103.4949v1 [quant-ph]– Violation of Temporal Bell Inequality for single spins in solid by over 50
standard deviations.
• P. Hemmer, J. Wrachtrup, F. Jelezko, and S. Prawer, SPIE Newsroom, 10.1117/2.1200711.0941– Diamonds for Scalable Quantum Information Systems
• G. Kirchmair, F. Zahringer, R. Gerritsma, M. Kleinmann, O. Guhne, A. Cabello, R. Blatt, and C. F. Roos, Nature 460, 494 (2009).
– State-independent Experimental test of quantum contextuality
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Color centers in solids (NV-)
Show astonishingly long coherence times even at room temperature ~ 2ms
• Enable: Quantum memories
Provide coherent bridges between electron spin resonances (ESR) in the GHz range and opticalphotons suitable for long-distancetransfer
Slower quantum state manipulation• Solution: Hybrid System
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Atomic Ensembles
Issue: Coupling between a single spin and the electro-magnetic feld is typically very weak
Solution:•writing single excitations into ensemblesof N spins, it is enhanced by a factor
Still Need:
Overcome resonator and emitter damping rates
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Some Numbers
~ 2.87 GHz
~ 10
~ 11 MHz
~ 2 x 10
~ 3x3x0.5 mm
~ 40 mK
High Pressure/Temp
Zero Field Splitting:
NV Center Population:
Collective Coupling Constant g:
Resonator Quality Factor Q:
Diamond Dimensions:
Operational Temperature:
Diamond Type:
12
4
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Conclusion Spin Ensemble Coupling
• Strong coupling between an ensemble of nitrogen-vacancy center electron spins in diamond and a superconducting microwave coplanar waveguide resonator
• However, resonator and spin linewidths need 1 order of magnitude reduction to implement a quantum memory
• Observed scaling of the collective coupling strength with
• measure hyperfine coupling to C13 nuclear spins• first step towards a nuclear ensemble quantum memory
• measure the relaxation time T1 of the NV center at millikelvin temperatures in anon-destructive way
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