cavity quantum electrodynamics with superconducting circuits · circuit quantum electrodynamics a....
TRANSCRIPT
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M. Baur, R. Bianchetti, S. Filipp, J. Fink, A. Fragner, M. Göppl, P. Leek, P. Maurer,
L. Steffen, P. Studer(ETH Zurich)
Cavity Quantum Electrodynamicswith Superconducting Circuits
A. Blais (Sherbrooke, Canada)J. Gambetta (Waterloo, Canada)
D. Schuster, A. Houck, B. Johnson, J. Schreier, J. Chow, J. Majer, L. Frunzio,
M. Devoret, S. Girvin, R. Schoelkopf(Yale University)
Andreas Wallraff (ETH Zurich)www.qudev.ethz.ch
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Outline
• Cavity Quantum Electrodynamics
• Quantum Electrical Circuits
– Harmonic Oscillators
– Qubits
• Circuit Quantum Electrodynamics
– The Basics
– Resonant and Dispersive Circuit QED Experiments
• Quantum Information Processing
– Single Qubit Control and Read-Out in Circuit QED
– Quantum Geometric Phases
– Two-Qubit Gates
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Cavity Quantum Electrodynamics
D. Walls, G. Milburn, Quantum Optics (Spinger-Verlag, Berlin, 1994)
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Dressed States Energy Level Diagram
Atomic cavity quantum electrodynamics reviews:H. Mabuchi, A. C. Doherty Science 298, 1372 (2002)
J. M. Raimond, M. Brune, & S. Haroche Rev. Mod. Phys. 73, 565 (2001)
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Review: J. M. Raimond, M. Brune, and S. HarocheRev. Mod. Phys. 73, 565 (2001)P. Hyafil, ..., J. M. Raimond, and S. Haroche,Phys. Rev. Lett. 93, 103001 (2004)
Vacuum Rabi Oscillations with Rydberg Atoms
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Vacuum Rabi Mode Splitting with Alkali Atoms
R. J. Thompson, G. Rempe, & H. J. Kimble, Phys. Rev. Lett. 68 1132 (1992)A. Boca, ... , J. McKeever, & H. J. KimblePhys. Rev. Lett. 93, 233603 (2004)
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Quantum Electronic Circuits:Artificial Atoms and Photons on a Chip
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Resistor
Capacitor
Inductor
Voltage source
Current source
E
...
?
The Quantum Electronic Circuit Toolkit
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Typical parameters for microfabricated LC:
Problem #1: Linear
Electrical Harmonic Oscillators
M. Devoret, Quantum fluctuations in electrical circuits, Elsevier Science (1997)
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Harmonic Oscillator: A Linear Many-Level SystemE
nerg
y
... Infinitely many linearly spaced energy levels
Ladder operators:
Product of ladder operators:
Contains information about which “step” of the ladder the oscillator is on
Hamiltonian of a harmonic oscillator(the total energy):
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ext. load
Quality factor:
Relaxation rate:
Total losses:
Internal losses:conductor, dielectric
ext. load
=External losses:radiation, coupling
Problem #2: Avoid internal and external dissipation
Characteristic impedance:
Electrical Harmonic Oscillators: Dissipation
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Resistor
Capacitor
Inductor
Voltage source
Current source
E
...
10 GHz0.5 K
~~
?
Josephson JunctionTransistor
Artificial Atom Toolkit
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superconductingbottom electrode
superconductingtop electrode
tunnel oxide layer
superconductors: Al, Nb
tunnel barrier: AlOx
nonlinear
dissipation-less
Josephson Junctions …
Josephson energy :(tunneling amplitude)
junction capacitance:
… superconducting non-linear elements:
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EJ/4EC=0Cg
CJEJ
-----+++++
A Superconducting Qubit: The Cooper Pair Box
EJ/4EC=0.1
First theoretically suggested:
Shnirman et al. Phys. Rev. Lett. 79, 2371 (1997) Bouchiat et al. Physica Scripta 176, 165 (1998)
First experimental realization:
Y. Nakamura et al. Nature (London) 398, 786 (1999)
EJ
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The Cooper Pair Box Hamiltonian
• in the charge basis
• CPB Hamiltonian
• generic Hamiltonian for an electrical oscillator
• pick a basis
(for Theorists)
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Many Superconducting Qubits
NISTUCSB
Maryland
NEC, Chalmers, JPL, Yale, ETHZ
Delft, NTT, IPHT, NEC
SaclayYale YaleETHZ
Cooper Pair Box Quantronium Transmon Flux Phase
Thousandfold increase in dephasing times:T2 ~ 1 ns
T2 ~ 500 ns
T2 ~ 2000 ns
• First coherent oscillations (NEC, 1999)
• “Sweet spot” (Saclay, 2002)
• Transmon (Yale, 2007)
concepts review: M. H. Devoret, A. Wallraff and J. M. Martinis, condmat/0411172 (2004)realizations review: G. Wendin and V.S. Shumeiko, cond-mat/0508729 (2005)
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How to do Control: Single-Qubit Gates à la NMR
Cg
CJEJ
EJ/4EC=0.1
Experimental results: Single qubit Hamiltonian, with drive:NOT-gate(π-pulse)
√NOT-gate(π/2-pulse)
T1 ~ 1.8 μs
T2 ~ 500ns
Relaxation and dephasing times:
(Bit flip)
(Phase randomization)*
Vion et al., Science 296 886 (2002)
ω01
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Problem: Charge (and other types of) Noise
Cg
CJEJ
EJ/4EC=0.110 mK300 K
Charge fluctuations:
Golden rule:
Solutions:
Suppress relaxation by suppressing noise at qubit frequency (circuit QED)
Suppress phase randomization with flat energy bands (Transmon)
ω01
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CS
Solution: Reduce Charge Noise Sensitivity
EJ/4EC=0.1Cg
CJEJ
EJ/4EC=2EJ/4EC=10
~ √8EJEC - EC
Charge dispersion decreases more rapidly than anharmonicity:
Predicted long dephasing times: J. Koch et al., PRA 76, 042319 (2007)
Measured long dephasing times: J. A. Schreier et al. PRB 77, 180502 (2008)
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Two Versions of the Cooper Pair Box
M. Goppl, P. Leek (Quantum Device Lab, ETHZ, 2007)
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Circuit Quantum Electrodynamics
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Cavity QED with Superconducting Circuits
• Y. Makhlin, G. Schön, and A. Shnirman, Rev. Mod. Phys. 73, 357 (2001).• O. Buisson and F. Hekking, in Macroscopic Quantum Coherence and
Quantum Computing, edited by D. V. Averin, B. Ruggiero, and P. Silvestrini (Kluwer, New York, 2001).
• F. Marquardt and C. Bruder, Phys. Rev. B 63, 054514 (2001).• F. Plastina and G. Falci, Phys. Rev. B 67, 224514 (2003).• A. Blais, A. Maassen van den Brink, and A. Zagoskin, Phys. Rev. Lett. 90,
127901 (2003).• W. Al-Saidi and D. Stroud, Phys. Rev. B 65, 014512 (2001).• C.-P. Yang, S.-I. Chu, and S. Han, Phys. Rev. A 67, 042311 (2003).• J. Q. You and F. Nori, Phys. Rev. B 68, 064509 (2003).
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Cavity QED with Superconducting Circuits
A. Blais, R.-S. Huang, A. Wallraff, S. M. Girvin, and
R. J. Schoelkopf, PRA 69, 062320 (2004)
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Circuit Quantum Electrodynamics
A. Blais et al., PRA 69, 062320 (2004)
elements• the cavity: a superconducting 1D transmission line resonator
with large vacuum field E0 and long photon life time 1/κ• the artificial atom: a Cooper pair box
with large dipole moment d and long coherence time 1/γ
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Vacuum Field in 1D Cavity
+ + --
E B
1 mm
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Storing Photons and Controlling their Life Time
photon lifetime (quality factor)controlled by coupling capacitor Cin/out
1 mm
100µm
100µm
100µm
100µm
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Resonator Quality Factor and Photon Lifetime
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Energy Levels of a Superconducting Qubit
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B-Field Dependence of Energy Levels
J. Koch et al., Phys. Rev. A 76, 042319 (2007)
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Strong Coupling Cavity QED Circuit
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Resonant Vacuum Rabi Mode Splitting …
first demonstration: A. Wallraff, … and R. J. Schoelkopf, Nature (London) 431, 162 (2004)this data: J. Fink et al., Nature (London) 454, 315 (2008)
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How to Measure Single Microwave Photons
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Measurement Setup
microwave electronics 20 mK cryostat
cold stage
sample mount
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Strong Coupling with Superconducting Circuits
Yale University (now also ETH Zurich)Nature (London) 431, 162 (2004)
TU Delft.Nature (London) 431, 159 (2004)
NTTPRL 96, 127006 (2006)
NECNature (London) 449, 588 (2007)
NIST Boulder (now also at UCSB)Nature (London) 449, 438 (2007)
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The Quantum Nonlinearity of the J-C Ladder
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Climbing the Jaynes-Cummings Ladder
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Two-Photon Pump and Probe Spectroscopy
J. Fink, M. Goeppl, M. Baur, R. Bianchetti, P. Leek, A. Blais, A. Wallraff,Nature (London) 454, 315 (2008)
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Resonant Vacuum Rabi Mode Splitting …
J. Fink, M. Goeppl, M. Baur, R. Bianchetti, P. Leek, A. Blais, A. Wallraff,Nature (London) 454, 315 (2008)
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Resonant Vacuum Rabi Mode Splitting …
J. Fink, M. Goeppl, M. Baur, R. Bianchetti, P. Leek, A. Blais, A. Wallraff,Nature (London) 454, 315 (2008)
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Sqrt(n) Quantum Nonlinearity
J. Fink, … , A. Wallraff, Nature (London) 454, 315 (2008)
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Cavity QED with Multiple Atoms
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Two-’Atom’ Cavity QED
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Two Qubit Vacuum-Rabi Mode Splitting
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Dispersive Qubit-Photon Interaction
A. Blais et al., PRA 69, 062320 (2004)
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Qubit Spectroscopy & AC-Stark Effect
D. I. Schuster et al., Phys. Rev. Lett. 94, 123062 (2005)
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Photon Number Dependent ‘Quantum’ Light Shift
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Measuring Photon Number Statistics
Schuster, Houck, Schreier, Wallraff, Gambetta, Blais, Frunzio, Johnson, Devoret, Girvin, Schoelkopf, Nature 445, 515 (2007)
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Qubit Control andTime Resolved Measurements
Rabi Oscillations, Ramsey Fringes, Tomography …
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Qubit Control and Readout
Wallraff, Schuster, Blais, ... Girvin, and Schoelkopf, Phys. Rev. Lett. 95, 060501 (2005)
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Rabi Oscillations (weak cont. measurement)
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High Fidelity Control & Read Out
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Quantum State Tomography
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Single Qubit Coherence: Ramsey Fringes
A. Wallraff et al., Phys. Rev. Lett. 95, 060501 (2005)
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Spin Echo Experiment
Lars Steffen et al. (2007)
0 1000 2000 3000 4000 5000 6000 7000Sequence duration HnsL
0.2
0.4
0.6
0.8
1
poPH
sbraL
Spec= 4.83 dBm ü 3.704GHz, AWG Hi 0.45 mV
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Circuit QED and Quantum Optics
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Quantum Computation with Circuit QED
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The ETH Zurich Quantum Device Lab
lab started in April 2006
with funding from:
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The Yale Circuit QED Team
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Circuit QED Publicationscircuit QED proposal: • Blais, Huang, Wallraff, Girvin, Schoelkopf, PRA 69, 062320 (2004)strong coupling & vacuum Rabi mode splitting:• Wallraff, Schuster, Blais, Frunzio, Huang, Majer, Kumar, Girvin, Schoelkopf, Nature 431, 162 (2004)• Fink, Goeppl, Baur, Bianchetti, Leek, Blais, Wallraff, Nature 454, 315 (2008)high visibility Rabi oscillations & coherence time measurements:• Wallraff, Schuster, Blais, Frunzio, Majer, Girvin, and Schoelkopf, PRL 95, 060501 (2005)ac Stark shift, number splitting & measurement induced dephasing:• Schuster, Wallraff, Blais, Frunzio, Huang, Majer, Girvin, Schoelkopf, PRL 94, 123062 (2005)• Gambetta, Blais, Schuster, Wallraff, Frunzio, Majer, Devoret, Girvin, Schoelkopf, PRA 74, 042318 (2006)• Schuster, Houck, Schreier, Wallraff, Gambetta, Blais, Frunzio, Johnson, Devoret, Girvin, Schoelkopf,
Nature 445, 515 (2007)circuit QED gates, side band transitions:• Blais, Gambetta, Wallraff, Schuster, Devoret, Girvin, Schoelkopf, PRA 75, 032329 (2007)• Wallraff, Schuster, Blais, Gambetta, … , Frunzio, Devoret, Girvin, Schoelkopf, PRL 99, 050501 (2007)• Majer, Chow, Gambetta, Koch, Johnson, Schreier, Frunzio, Schuster, Houck, Wallraff, Blais, Devoret,
Girvin, Schoelkopf, Nature 449, 443 (2007)• Leek, Fink, Blais, Bianchetti, Goeppl, Gambetta, Schuster, Frunzio, Schoelkopf, Wallraff, Science 318,
1889 (2007)circuit QED device fabrication:• Frunzio, Wallraff, Schuster, Majer, Schoelkopf, IEEE Trans. Appl. Supercond. 15, 860 (2005)