Subject
Fundamentals of Nanoscale Characterization
General details of the subject
- Mode
- Face-to-face degree course
- Language
- English
Description and contextualization of the subject
This subject provides the students with the neccesary knowledge to understand the basic theoretical principles of the fundamental physical processes that permit the characterization of the structure of materials at the nanometric scale.Teaching staff
Name | Institution | Category | Doctor | Teaching profile | Area | |
---|---|---|---|---|---|---|
BLANCO REY, MARIA | University of the Basque Country | Personal Doctor Investigador | Doctor | Not bilingual | Condensed Matter Physics | maria.blanco@ehu.eus |
JUARISTI OLIDEN, JOSEBA IÑAKI | University of the Basque Country | Profesorado Catedratico De Universidad | Doctor | Bilingual | Condensed Matter Physics | josebainaki.juaristi@ehu.eus |
Competencies
Name | Weight |
---|---|
. | 100.0 % |
Study types
Type | Face-to-face hours | Non face-to-face hours | Total hours |
---|---|---|---|
Lecture-based | 18 | 33 | 51 |
Applied classroom-based groups | 12 | 12 | 24 |
Training activities
Name | Hours | Percentage of classroom teaching |
---|---|---|
Lectures | 30.0 | 100 % |
Assessment systems
Name | Minimum weighting | Maximum weighting |
---|---|---|
Written examination | 100.0 % | 100.0 % |
Ordinary call: orientations and renunciation
Final evaluation: 100% theoretical-practical examIn case the student does not show up at the final exam, he/she will be considered as not presented.
Extraordinary call: orientations and renunciation
Final evaluation: 100% theoretical-practical examIn case the student does not show up at the final exam, he/she will be considered as not presented.
Temary
1 ELASTIC SCATTERING AND DIFFRACTION1.1. ELASTIC SCATTERING OF LIGHT WITH MATTER
1.2. STATIC STRUCTURE FACTOR AND PAIR DISTRIBUTION FUNCTION
1.3. DIFFRACTION IN CRYSTALLINE SOLIDS
1.4. ELASTIC SCATTERING OF ELECTRONS WITH MATTER
1.5 ELASTIC SCATTERING OF NEUTRONS WITH MATTER
2 INELASTIC SCATTERING. DYNAMIC STRUCTURE FACTOR AND TIME CORRELATION
3 LINEAR RESPONSE THEORY
3.1. DENSITY-DENSITY RESPONSE FUNCTION
3.2. NON INTERACTING FERMI GAS
3.3. THE CHARGED FERMI LIQUID AND THE DIELECTRIC FUNCTION
3.4. RANDOM PHASE APPROXIMATION. PLASMONS.
4 FUNDAMENTALS OF SPECTROSCOPY
4.1. GREEN FUNCTIONS (CLASSICAL, ONE-BODY SCHRÖDINGER EQUATION, SINGLE-PARTICLE FOR MANY-BODY)
4.2. LEHMAN REPRESENTATION. THE SPECTRAL FUNCTION. BROADENING (LINE WIDTH)
4.3. MEASURING THE SPECTRAL FUNCTION WITH SCANNING TUNNELING SPECTROSCOPY.
3.4. TWO-PARTICLE CORRELATION FUNCTIONS (RESPONSE FUNCTIONS)
5 DIFFERENT SPECTROSCOPIES
5.1. INELASTIC ELECTRONS TUNNELING SPECTROSCOPY (IETS)
5.2. ANGLE RESOLVED PHOTOEMISSION SPECTROSCOPY (ARPES)
5.3. TWO PHOTON PHOTOEMISSION SPECTROSCOPY (2PPE)
5.4. VIBRATIONAL SPECTROSCOPIES: INFRARED (IR), RAMAN AND HREELS
5.5. X-RAY ABSORPTION SPECTROSCOPY (XANES, EXAFS AND NEXAFS)
Bibliography
Basic bibliography
¿X-RAY DIFFRACTION¿BY B. E. WARREN
DOVER PUBLICATIONS, 1990.
¿DIFFRACTION PHYSICS¿
BY J. M. COWLEY
NORTH-HOLLAND PHYSICS PUBLISHERS, 1984.
¿TRANSMISSION ELECTRON MICROSCOPY AND DIFFRACTOMETRY OF MATERIALS¿
BY B. FULTZ AND J. M. HOWE
SPRINGER-VERLAG, 2001.
¿DIFFUSE NEUTRON SCATTERING FROM CRYSTALLINE MATERIALS¿
BY V. M. NIELD AND D. A. KEEN
OXFORD UNIVERSITY PRESS, 2001.
¿FUNDAMENTALS OF CRYSTALLOGRAPHY¿
BY C. GIACOVAZZO, H. L. MONACCO, G. ARTIOLI, D. VITERBO, G. FERRARIS, G. GILLI, G. ZANOTTI, AND M. CATTI
OXFORD UNIVERSITY PRESS, 2002.
¿THE THEORY OF QUANTUM LIQUIDS¿
BY PHILIPPE NOZIERES AND DAVID PINES
PERSEUS BOOKS PUBLISHING, 1999.
"BEYOND THE ONE-ELECTRON MODEL. MANY-BODY EFFECTS IN ATOMS, MOLECULES AND SOLIDS"
BY CARL-OLOF ALMBLADH AND LARS HEDIN.
CHAPTER 8 OF HANDBOOK ON SYNCHROTON RADIATION, VOL. 1, EDITED BY E. E. KOCH
NORTH HOLLAND PUBLISHING COMPANY, 1983.
"SOLID-STATE PHOTOEMISSION AND RELATED METHODS" (THEORY AND EXPERIMENTS)
EDITED BY WOLFGANG SCHATTKE AND MICHEL A. VAN HOVE.
WYLEY-VCH VERLAG GMBH&CO.KGAA, 2003.
Links
https://www.ehu.eus/en/web/masternanoscience/aurkezpenawww.mscnano.eu/intranet