Applied Quantum Physics
Week 1, Lecture 1. January 18, 2000
I. General introduction to the course.
II. Historical review of quantum mechanical tunneling
Basic concept of tunneling, time-independent Schrödinger
equation
NIN tunnel junctions: current-voltage characteristics
Voltage suppression of the barrier, determination of
the barrier parameters
Scanning Tunnel Microscope (STM)
Literature:
E. Burstein and S. Lundquist. Tunneling Phenomena in
Solids, Plenum Press 1969, Chapters 1-3, 10
L. Solymar. Superconductive tunneling and Applications,
Chapman and Hall 1972.
M. Tinkham. Superconductivity, McGraw-Hill 1996, p 71-75
H.-J. Güntherodt, and R. Wiesendanger (Ed.). Scanning
Tunneling Microscopy I. Berlin: Springer-Verlag (1992).
W1. Lecture 2. January 20, 2000
Superconductivity.
SIN tunnel junction.
SIN tunnel junction as a temperature sensor
Tunnel junction technology
SIN junction for electronic microrefigeration.
Thermal and electrical conductivity through NS
interface (Andreev reflection)
Literature:
E. Burstein and S. Lundquist. Tunneling Phenomena in
Solids, Plenum Press 1969, Chapters 1-3, 10
L. Solymar. Superconductive tunneling and Applications,
Chapman and Hall 1972, p 19-25.
M. Tinkham. Superconductivity, McGraw-Hill 1996, p 71-75
M.Nahum, P.Richards and C.Mears. IEEE Trans.on Appl.
Superconductivity, 3, 2124 (1993)
M.Nahum, J.M.Martinis, Appl. Phys. Lett., v. 63, N 22,
pp. 3075-3077 (1993)
M.Nahum, J.M.Martinis, Appl. Phys. Lett., v. 65, N 23,
3123 (1994).
M.Leivo, J.Pecola and D.Averin. Appl. Phys. Lett., v.
68, 1996 (1996).
W2. Lecture 3. January 25, 2000
Characteristic time scales of electron and phonon interaction
at low temperatures. Hot-electron effect.
Normal metal hot electron microbolometer using SIN tunnel
junctions.
Quantum photon absorption or classical absorption?
Superconducting hot electron bolometer.
Possible modifications of high frequency microbolometers.
X-ray spectroscopy based on microcalorimeters.
F. Wellstood, C. Urbina and J. Clarke. Physical Rewiew,
v. 49, 5942 (1994)
M.Nahum, P.Richards and C.Mears. IEEE Trans.on Appl.
Supercond., 3, 2124 (1993)
M.Nahum, J.M.Martinis, Appl. Phys. Lett., v. 63, N 22,
pp. 3075-3077 (1993)
N. Achcroft and N. Mermin. Solid State Physics (1976).
M.Nahum, J.M.Martinis, Appl. Phys. Lett., v. 65, N 23,
3123 (1994).
M.Leivo, J.Pecola and D.Averin. Appl. Phys. Lett., v.
68, 1996 (1996).
A.Lee, P. Richards, et al., APL, 69, 1801 (1996).
M.Nahum, J.M.Martinis, Appl. Phys. Lett., v. 66, N 23,
3203 (1995).
Week 3. Lecture
4. Josephson effect. Part 1.
February 1, 2000
Josephson effect in SIS tunnel junctions, dc and ac.
Supercurrent and nonlinear inductance.
Josephson oscillations
Josephson junctions and models
L. Solymar. Superconductive tunneling and Applications,
Chapman and Hall 1972, p 19-25.
M. Tinkham. Superconductivity, McGraw-Hill 1996, p 71-75
R.P. Feynman, Lectures on Physics. Vol. III.
Antonio Barone and Gianfranco Paterno, Physics and Applications
of the Josephson Effect (1982)
Antonio Barone, Josephson Effect - Achievements and Trends (1986)
Week 3, Lecture 5. Josephson effect. Part 2. February 3, 2000
Basic concepts of parametric amplification. Manley -Rowe
relations.
Josephson parametric regeneration with self-pumping,
violation of Manley -Rowe relations
Parametric amplification at supercurrent with external
pumping
Noise squeezing by a Josephson-parametric amplifiers
Mixers, detectors, voltage standard.
K. Likharev. Dynamics of Josephson junctions and circuits,
Gordon and Breach 1986.
B. Yurke et al., Phys. Rev. Lett. 60, 764 (1988)
M. Tinkham. Superconductivity, McGraw-Hill 1996, p 71-75
Antonio Barone and Gianfranco Paterno, Physics and Applications
of the Josephson Effect (1982)
Antonio Barone, Josephson Effect - Achievements and Trends
(1986)
W4. Lecture 6. SQUIDs February 8, 2000
Magnetic flux quantization.
Single-junction interferometer. Macroscopic quantum interference
The r.f. SQUIDs
Two-junction interferometer. Modulation of critical current.
The direct current SQUIDs.
Applications, flux transformer, gradiometers.
K. Likharev. Dynamics of Josephson junctions and
circuits, Gordon and Breach 1986.
J. Clarke. SQUIDs. Scientific American. August
1994, p. 46.
M. Tinkham. Superconductivity, McGraw-Hill 1996, p 71-75
Antonio Barone and Gianfranco Paterno, Physics and Applications
of the Josephson Effect (1982)
Antonio Barone, Josephson Effect - Achievements and Trends
(1986)
W5. Lecture 7. Coulomb blockade and correlated single-electron tunneling February 15, 2000
Tunneling in small junctions, charging energy. Conditions
to observe SET effects and influence of electrodynamic environment
Coulomb blockade of tunneling.
Correlated tunneling of single electrons in time - SET
oscillations.
Time of tinnelling and relativistic horizon
1-D array of small tunnel junctions
Single junction with resistors. Box experiment
Metrological triangle
K. Likharev, T. Claeson. Single Electronics. Scientific
American, June 1992, p. 80.
D. V. Averin and K. K. Likharev, in Mesoscopic Phenomena
in Solids, eds. B. L. Altshuler, P. A. Lee, R. A. Webb (Elsevier, Amsterdam,
1991), p. 167.
K. Likharev. Dynamics of Josephson junctions and circuits,
Gordon and Breach 1986.
W5. Lecture 8. Correlated tunneling of the Cooper pairs February 19
Current-biased small Josephson junction
Energy bands. Nonlinear capacitance.
Correlated tunneling of Cooper pairs in time -
Bloch oscillations.
Experimental observation of the Bloch oscillations.
Linewidth of the Bloch oscillations. Metrological triangle
Box experiments
Macroscopic quantum coherence. Disussion about reality
of this phenomenon.
K. Likharev, T. Claeson. Single Electronics. Scientific
American, June 1992, p. 80.
D. V. Averin and K. K. Likharev, in Mesoscopic Phenomena
in Solids, eds. B. L. Altshuler, P. A. Lee, R. A. Webb (Elsevier, Amsterdam,
1991), p. 167.
K. Likharev. Dynamics of Josephson junctions and circuits,
Gordon and Breach 1986.
A. Leggett. Macroscopic quantum tunnelling and related
matters. Japanese J. of Applied Phys., 26, 1986 (1987)
L. Kuzmin and D. Haviland. Observation of the Bloch Oscillations
in an Ultrasmall Josephson Junction. PRL, v. 67, p 2890 (1991)
W6. Lecture 9. Correlated tunneling in space - Single electron transistor February 22, 2000
Space correlation of single-electron tunneling. Sub-electron
sensitivity
Coulomb staircase, period of oscillations
Single-electron transistor
Even-odd asymmetry in superconducting island -Parity
effect
Superconducting single electron transistor.
Phase locking of Bloch and Josephson oscillations - resistance
quantization
Applications, problems
K. Likharev, T. Claeson. Single Electronics. Scientific
American, June 1992, p. 80.
D. V. Averin and K. K. Likharev, in Mesoscopic Phenomena
in Solids, eds. B. L. Altshuler, P. A. Lee, R. A. Webb (Elsevier, Amsterdam,
1991), p. 167.
M. Tinkham. Superconductivity, McGraw-Hill 1996, p 71-75
D. Averin and Yu. Nazarov. Phys. Rev. Lett. 69,
1993 (1992).
M. Tuominen, M Tinkham et al., Phys. Rev B, 47, 11599
(1993)