Programme

HETEROJUNCTIONS AND HETEROSTRUCTURES. 2, 1, -0 DIMENSIONAL SYSTEMS: ELECTRONIC STATES AND DENSITY OF STATES. 2DIMENSIONAL ELECTRON GASES. CHARACTERISTICS LENGTHS FOR THE ELECTRICAL TRANSPORT IN LOW DIMENSIONAL SYSTEMS. T-MATRICES AN RESONANT TUNNELLING. INTERFERENCE OF WAVE FUNCTIONS. AHARONOV-BOHM EFFECT. BALISTIC TRANSPORT AND CONDUCTANCE QUANTIZATION IN 1D SYSTEMS. MAGNETOTRANSPORT: SHUBNIKOV-DE HAAS OSCILLATIONS AND QUANTUM HALL EFFECT. SINGLE ELECTRON TUNNELING AND COULOMB BLOCKAFDE EFFECTS. SINGLE ELECTRON TRANSISTOR. GRAPHENE: STRUCTURAL AND ELECTRONIC PROPERTIES. OPTICAL PROPERTIES OF NANOSTRUCTURES: INTERBAND TRANSITIONS IN QUANTUM WELLS; EXCITONS IN 2D SYSTEMS;
INTERSUBBANDTRANSITIONS. LIGHT-EMITTERS: GAIN COEFFICIENT; DIODE LASERS, HETEROSTRUCTURE LASERS, QUANTUM CASCADE LASERS (BRIEF).

Core Documentation

DATTA S.: ELECTRONIC TRANSPORT IN MESOSCOPIC SYSTEMS [CAMBRIDGE UNIVERSITY PRESS ]
FERRY D.K. AND GOODNICK S.M.: TRANSPORT IN NANOSTRUCTURES [CAMBRIDGE UNIVERSITY PRESS ]
DAVIES J. H. : THE PHYSICS OF LOW DIMENSIONAL SEMICONDUCTORS [CAMBRIDGE UNIVERSITY PRESS)

Type of delivery of the course

Lectures . The details of the mathematical calculations will be performed on the black-board. Some topics will be shown by projecting slides and reporting examples taken from recent scientific literature as an example. In the case of an extension of the health emergency from COVID-19, all the provisions governing the methods of carrying out the teaching activities and students' evaluation will be implemented. In particular, the following methods are applied: lessons in wen seminar using the Teams platform "

Type of evaluation

final oral examination. The examination i composed by 2 questions,typically one concerning the quantum magnetotransport, the second the optical properties of the confined systems. The student should proof his capability in putting the requested topic in a more general frame as well as to perform mathematical calculations

Programme

HETEROJUNCTIONS AND HETEROSTRUCTURES. 2, 1, -0 DIMENSIONAL SYSTEMS: ELECTRONIC STATES AND DENSITY OF STATES. 2DIMENSIONAL ELECTRON GASES. CHARACTERISTICS LENGTHS FOR THE ELECTRICAL TRANSPORT IN LOW DIMENSIONAL SYSTEMS. T-MATRICES AN RESONANT TUNNELLING. INTERFERENCE OF WAVE FUNCTIONS. AHARONOV-BOHM EFFECT. BALISTIC TRANSPORT AND CONDUCTANCE QUANTIZATION IN 1D SYSTEMS. MAGNETOTRANSPORT: SHUBNIKOV-DE HAAS OSCILLATIONS AND QUANTUM HALL EFFECT. SINGLE ELECTRON TUNNELING AND COULOMB BLOCKAFDE EFFECTS. SINGLE ELECTRON TRANSISTOR. GRAPHENE: STRUCTURAL AND ELECTRONIC PROPERTIES. OPTICAL PROPERTIES OF NANOSTRUCTURES: INTERBAND TRANSITIONS IN QUANTUM WELLS; EXCITONS IN 2D SYSTEMS;
INTERSUBBANDTRANSITIONS. LIGHT-EMITTERS: GAIN COEFFICIENT; DIODE LASERS, HETEROSTRUCTURE LASERS, QUANTUM CASCADE LASERS (BRIEF).

Core Documentation

DATTA S.: ELECTRONIC TRANSPORT IN MESOSCOPIC SYSTEMS [CAMBRIDGE UNIVERSITY PRESS ]
FERRY D.K. AND GOODNICK S.M.: TRANSPORT IN NANOSTRUCTURES [CAMBRIDGE UNIVERSITY PRESS ]
DAVIES J. H. : THE PHYSICS OF LOW DIMENSIONAL SEMICONDUCTORS [CAMBRIDGE UNIVERSITY PRESS)

Type of delivery of the course

Lectures . The details of the mathematical calculations will be performed on the black-board. Some topics will be shown by projecting slides and reporting examples taken from recent scientific literature as an example. In the case of an extension of the health emergency from COVID-19, all the provisions governing the methods of carrying out the teaching activities and students' evaluation will be implemented. In particular, the following methods are applied: lessons in wen seminar using the Teams platform "

Type of evaluation

final oral examination. The examination i composed by 2 questions,typically one concerning the quantum magnetotransport, the second the optical properties of the confined systems. The student should proof his capability in putting the requested topic in a more general frame as well as to perform mathematical calculations

Programme

HETEROJUNCTIONS AND HETEROSTRUCTURES. 2, 1, -0 DIMENSIONAL SYSTEMS: ELECTRONIC STATES AND DENSITY OF STATES. 2DIMENSIONAL ELECTRON GASES. CHARACTERISTICS LENGTHS FOR THE ELECTRICAL TRANSPORT IN LOW DIMENSIONAL SYSTEMS. T-MATRICES AN RESONANT TUNNELLING. INTERFERENCE OF WAVE FUNCTIONS. AHARONOV-BOHM EFFECT. BALISTIC TRANSPORT AND CONDUCTANCE QUANTIZATION IN 1D SYSTEMS. MAGNETOTRANSPORT: SHUBNIKOV-DE HAAS OSCILLATIONS AND QUANTUM HALL EFFECT. SINGLE ELECTRON TUNNELING AND COULOMB BLOCKAFDE EFFECTS. SINGLE ELECTRON TRANSISTOR. GRAPHENE: STRUCTURAL AND ELECTRONIC PROPERTIES. OPTICAL PROPERTIES OF NANOSTRUCTURES: INTERBAND TRANSITIONS IN QUANTUM WELLS; EXCITONS IN 2D SYSTEMS;
INTERSUBBANDTRANSITIONS. LIGHT-EMITTERS: GAIN COEFFICIENT; DIODE LASERS, HETEROSTRUCTURE LASERS, QUANTUM CASCADE LASERS (BRIEF).

Core Documentation

DATTA S.: ELECTRONIC TRANSPORT IN MESOSCOPIC SYSTEMS [CAMBRIDGE UNIVERSITY PRESS ]
FERRY D.K. AND GOODNICK S.M.: TRANSPORT IN NANOSTRUCTURES [CAMBRIDGE UNIVERSITY PRESS ]
DAVIES J. H. : THE PHYSICS OF LOW DIMENSIONAL SEMICONDUCTORS [CAMBRIDGE UNIVERSITY PRESS)

Type of delivery of the course

Lectures . The details of the mathematical calculations will be performed on the black-board. Some topics will be shown by projecting slides and reporting examples taken from recent scientific literature as an example. In the case of an extension of the health emergency from COVID-19, all the provisions governing the methods of carrying out the teaching activities and students' evaluation will be implemented. In particular, the following methods are applied: lessons in wen seminar using the Teams platform "

Type of evaluation

final oral examination. The examination i composed by 2 questions,typically one concerning the quantum magnetotransport, the second the optical properties of the confined systems. The student should proof his capability in putting the requested topic in a more general frame as well as to perform mathematical calculations

Programme

HETEROJUNCTIONS AND HETEROSTRUCTURES. 2, 1, -0 DIMENSIONAL SYSTEMS: ELECTRONIC STATES AND DENSITY OF STATES. 2DIMENSIONAL ELECTRON GASES. CHARACTERISTICS LENGTHS FOR THE ELECTRICAL TRANSPORT IN LOW DIMENSIONAL SYSTEMS. T-MATRICES AN RESONANT TUNNELLING. INTERFERENCE OF WAVE FUNCTIONS. AHARONOV-BOHM EFFECT. BALISTIC TRANSPORT AND CONDUCTANCE QUANTIZATION IN 1D SYSTEMS. MAGNETOTRANSPORT: SHUBNIKOV-DE HAAS OSCILLATIONS AND QUANTUM HALL EFFECT. SINGLE ELECTRON TUNNELING AND COULOMB BLOCKAFDE EFFECTS. SINGLE ELECTRON TRANSISTOR. GRAPHENE: STRUCTURAL AND ELECTRONIC PROPERTIES. OPTICAL PROPERTIES OF NANOSTRUCTURES: INTERBAND TRANSITIONS IN QUANTUM WELLS; EXCITONS IN 2D SYSTEMS;
INTERSUBBANDTRANSITIONS. LIGHT-EMITTERS: GAIN COEFFICIENT; DIODE LASERS, HETEROSTRUCTURE LASERS, QUANTUM CASCADE LASERS (BRIEF).

Core Documentation

DATTA S.: ELECTRONIC TRANSPORT IN MESOSCOPIC SYSTEMS [CAMBRIDGE UNIVERSITY PRESS ]
FERRY D.K. AND GOODNICK S.M.: TRANSPORT IN NANOSTRUCTURES [CAMBRIDGE UNIVERSITY PRESS ]
DAVIES J. H. : THE PHYSICS OF LOW DIMENSIONAL SEMICONDUCTORS [CAMBRIDGE UNIVERSITY PRESS)

Type of delivery of the course

Lectures . The details of the mathematical calculations will be performed on the black-board. Some topics will be shown by projecting slides and reporting examples taken from recent scientific literature as an example. In the case of an extension of the health emergency from COVID-19, all the provisions governing the methods of carrying out the teaching activities and students' evaluation will be implemented. In particular, the following methods are applied: lessons in wen seminar using the Teams platform "

Type of evaluation

final oral examination. The examination i composed by 2 questions,typically one concerning the quantum magnetotransport, the second the optical properties of the confined systems. The student should proof his capability in putting the requested topic in a more general frame as well as to perform mathematical calculations

Programme

HETEROJUNCTIONS AND HETEROSTRUCTURES. 2, 1, -0 DIMENSIONAL SYSTEMS: ELECTRONIC STATES AND DENSITY OF STATES. 2DIMENSIONAL ELECTRON GASES. CHARACTERISTICS LENGTHS FOR THE ELECTRICAL TRANSPORT IN LOW DIMENSIONAL SYSTEMS. T-MATRICES AN RESONANT TUNNELLING. INTERFERENCE OF WAVE FUNCTIONS. AHARONOV-BOHM EFFECT. BALISTIC TRANSPORT AND CONDUCTANCE QUANTIZATION IN 1D SYSTEMS. MAGNETOTRANSPORT: SHUBNIKOV-DE HAAS OSCILLATIONS AND QUANTUM HALL EFFECT. SINGLE ELECTRON TUNNELING AND COULOMB BLOCKAFDE EFFECTS. SINGLE ELECTRON TRANSISTOR. GRAPHENE: STRUCTURAL AND ELECTRONIC PROPERTIES. OPTICAL PROPERTIES OF NANOSTRUCTURES: INTERBAND TRANSITIONS IN QUANTUM WELLS; EXCITONS IN 2D SYSTEMS;
INTERSUBBANDTRANSITIONS. LIGHT-EMITTERS: GAIN COEFFICIENT; DIODE LASERS, HETEROSTRUCTURE LASERS, QUANTUM CASCADE LASERS (BRIEF).

Core Documentation

DATTA S.: ELECTRONIC TRANSPORT IN MESOSCOPIC SYSTEMS [CAMBRIDGE UNIVERSITY PRESS ]
FERRY D.K. AND GOODNICK S.M.: TRANSPORT IN NANOSTRUCTURES [CAMBRIDGE UNIVERSITY PRESS ]
DAVIES J. H. : THE PHYSICS OF LOW DIMENSIONAL SEMICONDUCTORS [CAMBRIDGE UNIVERSITY PRESS)

Type of delivery of the course

Lectures . The details of the mathematical calculations will be performed on the black-board. Some topics will be shown by projecting slides and reporting examples taken from recent scientific literature as an example. In the case of an extension of the health emergency from COVID-19, all the provisions governing the methods of carrying out the teaching activities and students' evaluation will be implemented. In particular, the following methods are applied: lessons in wen seminar using the Teams platform "

Type of evaluation

final oral examination. The examination i composed by 2 questions,typically one concerning the quantum magnetotransport, the second the optical properties of the confined systems. The student should proof his capability in putting the requested topic in a more general frame as well as to perform mathematical calculations

Programme

HETEROJUNCTIONS AND HETEROSTRUCTURES. 2, 1, -0 DIMENSIONAL SYSTEMS: ELECTRONIC STATES AND DENSITY OF STATES. 2DIMENSIONAL ELECTRON GASES. CHARACTERISTICS LENGTHS FOR THE ELECTRICAL TRANSPORT IN LOW DIMENSIONAL SYSTEMS. T-MATRICES AN RESONANT TUNNELLING. INTERFERENCE OF WAVE FUNCTIONS. AHARONOV-BOHM EFFECT. BALISTIC TRANSPORT AND CONDUCTANCE QUANTIZATION IN 1D SYSTEMS. MAGNETOTRANSPORT: SHUBNIKOV-DE HAAS OSCILLATIONS AND QUANTUM HALL EFFECT. SINGLE ELECTRON TUNNELING AND COULOMB BLOCKAFDE EFFECTS. SINGLE ELECTRON TRANSISTOR. GRAPHENE: STRUCTURAL AND ELECTRONIC PROPERTIES. OPTICAL PROPERTIES OF NANOSTRUCTURES: INTERBAND TRANSITIONS IN QUANTUM WELLS; EXCITONS IN 2D SYSTEMS;
INTERSUBBANDTRANSITIONS. LIGHT-EMITTERS: GAIN COEFFICIENT; DIODE LASERS, HETEROSTRUCTURE LASERS, QUANTUM CASCADE LASERS (BRIEF).

Core Documentation

DATTA S.: ELECTRONIC TRANSPORT IN MESOSCOPIC SYSTEMS [CAMBRIDGE UNIVERSITY PRESS ]
FERRY D.K. AND GOODNICK S.M.: TRANSPORT IN NANOSTRUCTURES [CAMBRIDGE UNIVERSITY PRESS ]
DAVIES J. H. : THE PHYSICS OF LOW DIMENSIONAL SEMICONDUCTORS [CAMBRIDGE UNIVERSITY PRESS)

Type of delivery of the course

Lectures . The details of the mathematical calculations will be performed on the black-board. Some topics will be shown by projecting slides and reporting examples taken from recent scientific literature as an example. In the case of an extension of the health emergency from COVID-19, all the provisions governing the methods of carrying out the teaching activities and students' evaluation will be implemented. In particular, the following methods are applied: lessons in wen seminar using the Teams platform "

Type of evaluation

final oral examination. The examination i composed by 2 questions,typically one concerning the quantum magnetotransport, the second the optical properties of the confined systems. The student should proof his capability in putting the requested topic in a more general frame as well as to perform mathematical calculations