FROM ATOMS TO QUANTUM MACHINES - physinfo.frphysinfo.fr/pdf/Devoret-07-0-0724v1.pdf · "SEEING"...

CHAIR OF MESOSCOPIC PHYSICS

Michel Devoret

"FROM ATOMS TO QUANTUM MACHINES"

Inaugural LectureMay 31, 2007

07-0-1

This College de France document is for consultation only. Reproduction rights are reserved.

"SEEING" ATOMS

Jean Perrin Albert Einstein Paul Langevin

Measurement and analysis ofbrownian motion (1908)

YESTERDAY....

.... AND TODAY

Iron atomsarranged on a copper surface(Eigler et al.)

5µm

Surface Review and Letters 2 (1), 127-137 (1995) 07-0-2

ATOM

ELECTRONS NUCLEUS

PROTONS, NEUTRONS

QUARKS

STRINGS?

THE ATOM IS ITSELFA WORLD OF PARTICLES

GRAVITONS?

10-10m

10-15m

10-35m

07-0-3

YET,ATOMS ARE

NOTMINIATURE

SOLAR SYSTEMS

IN QUANTUM MECHANICS, BASIC NOTIONS LIKETRAJECTORIES AND EVENTSLOSE THEIR USUAL MEANING

07-0-4

Classical Mechanics

100 102 104 106 108 1010 1012

QuantumMechanics

MACROSCOPIC WORLDmicro-scopicworld

numbersof atoms

100 102 104 106 108 1010 quantas perdegrees offreedom

TWO WORLDS

(complexity)

07-0-5

SEPARATING THE BORDERLANDS

ClassicalMechanics

100 102 104 106 108 1010 1012

Quantum Mechanics

10-4 10-2 100 102

MESOSCOPIC DOMAIN

07-0-6

MACROSCOPIC WORLDmicro-scopicworld

numbersof atoms

quantas perdegrees offreedom

(complexity)

WHY EXPLOREMESOSCOPIC SYSTEMS?

ADVANTAGES OFMACRO SYSTEMS:

MODULARITY,FLEXIBILITY,

ACCESSIBILITY

ADVANTAGES OFQUANTUM SYSTEMS:

ORDER,DISCRETENESS,ENTANGLEMENT

QUANTUMLEGO SET

QUANTUMMACHINES?

MESOSCOPIC SYSTEMS:- PARTIALLY CONFINED QUASIPARTICULES- ARTIFICIAL ATOMS

07-0-7

• WHAT ARE THESE QUANTAS DEFINING THE CLASSICAL-QUANTUMBORDERLAND?

• APPLICATIONS TO METROLOGY AND QUANTUM INFORMATIONPROCESSING : METROLOGICAL TRIANGLE AND SUPER-CONDUCTING QUANTUM CIRCUITS

• CHALLENGES OF MESOSCOPIC SYSTEMS: HOW DO WE MAKE, MEASURE AND CALCULATE THEM?THE QUANTUM POINT CONTACT

07-0-8

07-0-9




cosα sinα

we measure:i) angular position αii) angular velocity dα/dt

example:

A COMPLEX SYSTEM WITH THE SIMPLESTDEGREE OF FREEDOM

07-0-10

ANGLE

ANGULARMOMENTUM

QUANTUM LAWS RESTRICTINFORMATION ACQUISITION

07-0-11

ANGLE

07-0-12

ANGULARMOMENTUM

QUANTUM LAWS RESTRICTINFORMATION ACQUISITION

ANGLE

AREA ≥ h

PLANCK'S CONSTANT SETSTHE ACTION QUANTUM....

h ≈ 10-34 J•s Measurement of angular position of hard drive with 16 bits→ velocity fuzz: thousandth of a turn per billion years!

07-0-13

ANGULARMOMENTUM

TIME

ENERGY AREA ≥ h

ENERGY→TEMPERATURE: 10mK ¥ 1nsh ≈ 10-34 J•s

... THE TRUE INDIVISIBLE QUANTITYOF NATURE

07-0-14

ANGLE

AREA ≥ h

DISCRETENESS OF CYCLIC SYSTEM

07-0-15

ANGULARMOMENTUM

ANGLE

INTERFERENCE!

07-0-16

ANGULARMOMENTUM

DISCRETENESS OF CYCLIC SYSTEM

ENERGY QUANTIZATION

ENERGY OF INCIDENT PARTICLE

SYSTEMENERGY

QUANTUM LIMIT

CLASSICAL LIMIT

∆E=hf

00

07-0-17




07-0-18

THE QUANTUM POINT CONTACT

GaAs

AlGaAs

two-dimensionalelectron gas

WEAKMASS

SPEED

07-0-19

GaAs

AlGaAs

~ 100 nm

NANOMETRICDIMENSIONSmetallic

electrodes

07-0-20


- -

- -

consider chargehaving traversedcontact in time T

07-0-21


d

ELECTRONIC MODES

FB

hvk Td

LOWTEMPERATURES

07-0-22

d'

WAVEGUIDE ANALOG

07-0-23

ELECTRONIC MODES

OF MHOS AND ELECTRONS

22 2

ET eVTNh h

I eN eGV TV h

= =

= = =

number of packets:

conductance: 2

26 kΩ≈

07-0-24

Energy

Time 0 T

∆E = eV

2

hGe

2

4

8

6

12

10

0

Ug

d

CONDUCTANCE QUANTIZATION

ACCESS TO A QUANTUM PHENOMENONWITH A SIMPLE VOLTMETER!

van Wees et al.1988

07-0-25




07-0-26

IV

Josephsoneffect

quantumHall effect

2hV n fe

= I mef=

2eI p Vh

=

FLUXQUANTIZATION

f

07-0-27

CHARGEQUANTIZATIONsingle electron

pump

CONDUCTANCEQUANTIZATION

TRIANGLE OF METROLOGICAL MESOSCOPIC EFFECTS

IV

Josephsoneffect

quantumHall effect

2hV n fe

= I mef=

2eI p Vh

=

TRIANGLE OF METROLOGICAL MESOSCOPIC EFFECTS

f

single electronpump

2eI p Vh

=

revisionof SI system

ATOMIC CLOCK

07-0-28

UNIVERSAL AND MICROSCOPICCONSTANTS

UNIVERSALQUANTUM

CONSTANTSEMERGE

ROBUSTLY IN METROLOGICAL

TRIANGLE

from S. Harris

ARTIFICIAL ATOMS?

07-0-29

AN ARTIFICIAL ATOM:THE COOPER PAIR BOX

U

GATEELECTRODE SUPERCONDUCTING

ELECTRODE(“ISLAND”)

SUPER-CONDUCTINGRESERVOIR

TUNNEL JUNCTION(1nm thick)

WITH n PAIRSOF EXCESSELECTRONS

V. Bouchiat et al. 1997

07-0-30

MECHANICALANALOG

dα/dtdβ/dt

nU

ELECTRICITY MECHANICS

current force

07-0-31

0

2

1

4

3

STATE 0

STATE 1

COHERENTSUPER-

POSITIONOF

0 AND 1

QUBIT : QUANTUM BINARYINFORMATION UNIT

ENERGY

07-0-32

time

"NOT"force

"(NOT)1/2 "

WRITINGA SUPER-POSITION

"(NOT)-1/2 "

07-0-33

THE PRINCIPLE OF INFORMATIONRESTRICTION TAKES ITS TOLL

DURING READOUT,QUANTUM INFORMATION

REDUCES TO0 OR 1

0

1

07-0-34

gate

1 QUBIT NANO-CIRCUIT

500 nm

island

box junction

electrontrap

readout junction

gate

siliconsubstrate

Vion et al., 2002

07-0-35

mK GHz07-0-36

QUBIT MANIPULATION

• RESET• IRRADIATION WHILE t• MEASUREMENT

AP

P. P

OLA

RIZ

ATI

ON

t (ns)

Rabi oscillations ofatomic physicsand nuclear

magnetic resonanceoberved on a

single spin!

(Siddiqi et al., 2006)

07-0-37

CONCLUSIONS AND PERSPECTIVESNEW CHALLENGES : NANOMETER SCALE FABRICATION,

MEASUREMENT OF INDIVIDUAL QUANTAS, THEORY OF COMPLEXQUANTUM SYSTEMS

DISCOVERY OF A NEW COMPLEXITY AXISTOWARDS WHICH QUANTUM MECHANICS

WOULD PRESENT ANOMALIES?

APPLICATIONS: REDEFINITION OF BASIC UNITS, DETECTION OFPARTICLES AND WEAK FORCES, INFORMATION PROCESSING

MESOSCOPIC SYSTEMS OPEN THE WAY TO THEQUANTUM MACHINES IMAGINED BY RICHARD FEYNMAN

NEW QUANTUM EFFECTS : FRACTIONAL CHARGES STRONG COUPLING BETWEEN CHARGE AND FIELD,

LOCAL MANIPULATION OF ELECTRONIC AND NUCLEAR SPINS,NON-GAUSSIAN NOISE, ENTANGLEMENT OF COLLECTIVE VARIABLES....

07-0-38

MY MENTORS AND CLOSE COLLEAGUESUniversity of Orsay

John ELANDSydney LEACH

Maurice CHAPELLIER

CEA-SaclayAnatole ABRAGAM

Neil SULLIVANMaurice GOLDMANAndré LANDESMAN

U.C. BerkeleyJohn CLARKE

TU DelftHans MOOIJ

Cees DEKKER Sander TANS

Quantronics Group

Daniel ESTEVECristian URBINAEmmanuel TURLOTHugues POTHIERPhilippe JOYEZPief ORFILAPhilippe LAFARGEDenis VION

Vincent BOUCHIATSophie GUERONFrédéric PIERRERonald CRONAbdel AASSIMEAudrey COTTETAnne ANTHOREPatrice BERTET

YaleIrfan SIDDIQIRajamani VIJAYFrédéric PIERREChad RIGETTIEtienne BOAKNINMichael METCALFE

Rob SCHOELKOPFDan PROBERSteve GIRVINDoug STONELuigi FRUNZIOVlad MANUCHARIAN

FreiburgHermann GRABERT U.C. Santa Barbara : John MARTINIS

07-0-39

W.M. KECK

Research sponsored by :

FROM ATOMS TO QUANTUM MACHINES - physinfo.frphysinfo.fr/pdf/Devoret-07-0-0724v1.pdf · "SEEING"...

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