Quantum computing hardware. .

Quantum computing Quantum computing hardwarehardware

http://qist.lanl.gov/qcomp_map.shtmlhttp://qist.lanl.gov/qcomp_map.shtml

NMR (obsolete?) - David Cory, Ike Chuang (MIT)

Ion Trap – David Wineland (NIST), Chris Monroe (Michigan), Rainer Blatt (Innsbruck), ...

Neutral Atom – Phillipe Grangier (Orsay), Poul Jessen (Arizona)

Cavity QED - Jeff Kimble (Caltech), Michael Chapman (GATech)

Optical – Paul Kwiat (Illinois)

Solid State – too many to mention a few? David Awschalom (UCSB), Duncan Steel (Michigan)

Superconducting – Michel Devoret (Yale), John Martinis (UCSB)

"Unique“ – Phil Platzman (Bell Labs)

““Approaches”Approaches”

QC implementation proposals

Bulk spin Resonance (NMR)

Optical Atoms Solid state

Linear optics Cavity QED

Trapped ions Optical lattices

Electrons on He Semiconductors Superconductors

Nuclear spin qubits

Electron spinqubits

Orbital statequbits

Flux qubits

Charge qubits

Chapman LawChapman Law

# o

f en

tan

gle

d ion

s

year

Chapman LawChapman Law

1

10

100

1000

10000

100000

1990 2000 2010 2020 2030 2040 2050 2060

Chapman LawChapman Law

http://www.org.chemie.tu-muenchen.de/glaser/NMR.jpg http://www.physics.iitm.ac.in/~kavita/qc.jpg

http://qist.lanl.gov/qcomp_map.shtmlhttp://qist.lanl.gov/qcomp_map.shtml

15 ≈ 5 x 315 ≈ 5 x 3

http://cba.mit.edu/docs/05.06.NSF/images/factor.jpg

http://nodens.physics.ox.ac.uk/~mcdonnell/wardPres/wardPres.html

http://www.nature.com/nphys/journal/v2/n1/images/nphys171-f2.jpg

http://www.physics.gatech.edu/ultracool/Ions/7ions.jpg

Blinov, B U. of Washington Ba+

Haljan, P Simon Fraser U. Yb+

Hensinger, W U. of Sussex Ca+

Madsen, M Wabash College Ca+

UW ion trap QC lab

Cirac-Zoller CNOT gate – the classic trapped ion gate

To create an effective spin-spin coupling, “control” spin state is mapped on to the motional “bus” state, the target spin is flipped according to its motion state, then motion is remapped onto the control qubit.

|

|

control

target

Cirac and Zoller, Phys. Rev. Lett. 74, 4091 (1995)

Raman beams

ZH H

http://www.physics.gatech.edu/ultracool/http://www.physics.gatech.edu/ultracool/

http://www.iqo.uni-hannover.de/ertmer/atoindex/http://www.iqo.uni-hannover.de/ertmer/atoindex/

““Cold collision” gatesCold collision” gates

Atoms trapped in optical latticesAtoms trapped in optical lattices

Lattices move, atoms collideLattices move, atoms collide

Massively parallel operation: gates on all pairs of neighboringMassively parallel operation: gates on all pairs of neighboringqubits at once... but no individual addressability.qubits at once... but no individual addressability.Good for quantum simulatorsGood for quantum simulators

Entanglement of atomic ensemblesEntanglement of atomic ensembles

E. Polzik, University of Aarhus E. Polzik, University of Aarhus

http://www.wmi.badw.de/SFB631/tps/dipoletrap_and_cavity.jpghttp://www.wmi.badw.de/SFB631/tps/dipoletrap_and_cavity.jpg

http://www2.nict.go.jp/http://www2.nict.go.jp/

http://www.nature.com/http://www.nature.com/

g

g2

> 1>

Strong coupling:

Photon-mediated entanglement

http://www.qipirc.org/images/projects/image018.jpghttp://www.qipirc.org/images/projects/image018.jpg

http://focus.aps.org/http://focus.aps.org/

http://www.quantum.at/http://www.quantum.at/

Entangled-photon six-state quantum cryptography (Paul G Kwiat)

http://www.wmi.badw.de/SFB631/tps/DQD2.gifhttp://www.wmi.badw.de/SFB631/tps/DQD2.gif

http://mcba2.phys.unsw.edu.au/~mcba/hons02-1-12-figb.jpghttp://mcba2.phys.unsw.edu.au/~mcba/hons02-1-12-figb.jpghttp://groups.mrl.uiuc.edu/http://groups.mrl.uiuc.edu/

Semiconductor qubits

1 sec

10-3 sec

10-6 sec

10-9 sec

10-12 sec

10-15 sec

Nuclear spinstates

Orbitalstates

Electron spinstates

Fast microprocessor

Control

Decoherence

Control

Control

Decoherence

Decoherence

“Kane proposal”

http://qt.tn.tudelft.nl/research/fluxqubit/qubit_rabi.jpghttp://qt.tn.tudelft.nl/research/fluxqubit/qubit_rabi.jpg

http://www-drecam.cea.fr/http://www-drecam.cea.fr/

www.physics.ku.edu www.physics.ku.edu

Josephson junction qubitsJosephson junction qubits

Cooper pair box (charge qubit)Cooper pair box (charge qubit)

Flux qubitFlux qubit

Quantization of magnetic field fluxQuantization of magnetic field fluxinside the loop containing several JJsinside the loop containing several JJs

Quantization of electric chargeQuantization of electric charge(number of Cooper pairs) trapped(number of Cooper pairs) trappedon an island sealed off by a JJ.on an island sealed off by a JJ.(|0> and |1> states are 1000000(|0> and |1> states are 1000000Cooper pairs vs. 1000001 CooperCooper pairs vs. 1000001 Cooperpairs)pairs)

http://www-drecam.cea.fr/Images/astImg/375_1.gifhttp://www-drecam.cea.fr/Images/astImg/375_1.gif

Any o

ther

wild

idea

s???

Any o

ther

wild

idea

s???

Quantum Computing Abyss(after D. Wineland)

?noise

reduction

newtechnology

errorcorrection

efficientalgorithms

5 >1000

<100 >109

theoretical requirementsfor “useful” QC

state-of-the-artexperiments

# quantum bits

# logic gates