ANX-PR/CL/001-01 LEARNING GUIDE - Grado en Ingeniería ...
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COORDINATION PROCESS OF
E.T.S. de Ingenieros de
LEARNING ACTIVITIES Caminos, Canales y Puertos
PR/CL/001
ANX-PR/CL/001-01
LEARNING GUIDE
SUBJECT
43000317 - Characterization Techniques Of Materials: Optical, Electrical And Magnetic
DEGREE PROGRAMME
04AF - Master Universitario En Ingenieria De Materiales
ACADEMIC YEAR & SEMESTER
2021/22 - Semester 1PR/CL/001
ANX-PR/CL/001-01 E.T.S. de Ingenieros de
COORDINATION PROCESS OF
LEARNING GUIDE Caminos, Canales y
LEARNING ACTIVITIES
Puertos
Index
Learning guide
1. Description...............................................................................................................................................................1
2. Faculty.....................................................................................................................................................................1
3. Prior knowledge recommended to take the subject..................................................................................................2
4. Skills and learning outcomes ...................................................................................................................................2
5. Brief description of the subject and syllabus.............................................................................................................4
6. Schedule..................................................................................................................................................................6
7. Activities and assessment criteria............................................................................................................................8
8. Teaching resources.................................................................................................................................................11
9. Other information....................................................................................................................................................11PR/CL/001
ANX-PR/CL/001-01 E.T.S. de Ingenieros de
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Puertos
1. Description
1.1. Subject details
43000317 - Characterization Techniques Of Materials: Optical, Electrical
Name of the subject
And Magnetic
No of credits 4 ECTS
Type Compulsory
Academic year ot the
First year
programme
Semester of tuition Semester 1
Tuition period September-January
Tuition languages English
Degree programme 04AF - Master Universitario en Ingenieria de Materiales
04 - Escuela Tecnica Superior De Ingenieros De Caminos, Canales Y
Centre
Puertos
Academic year 2021-22
2. Faculty
2.1. Faculty members with subject teaching role
Name and surname Office/Room Email Tutoring hours *
Javier Martinez Rodrigo M - 13:00 - 14:00
C-200 javier.martinez@upm.es
(Subject coordinator) Tu - 13:00 - 14:00
Th - 13:00 - 14:00
Jose Luis Prieto Martin A-032 joseluis.prieto@upm.es
F - 13:00 - 14:00
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W - 13:00 - 14:00
Jose Maria Ulloa Herrero C-200 josem.ulloa@upm.es
Th - 13:00 - 14:00
* The tutoring schedule is indicative and subject to possible changes. Please check tutoring times with the faculty
member in charge.
2.3. External faculty
Name and surname Email Institution
Yu Kyoung Ryu Cho y.ryu@upm.es ETSITelecomunicacion
Marco Maicas maicas@fis.upm.es ETSITelecomunicacion
Maria Del Mar Sanz Lluch mar.sanz.lluch@upm.es ETSITelecomunicacion
3. Prior knowledge recommended to take the subject
3.1. Recommended (passed) subjects
The subject - recommended (passed), are not defined.
3.2. Other recommended learning outcomes
- Basic Optics, Electricity and Magnetism; Structure of Materials; Semiconductor Physics; Quantum Physics;
Instrumentation; Engineering; Optoelectronic and Magnetic Devices.
4. Skills and learning outcomes *
4.1. Skills to be learned
CE 1 - Conocer, comprender y saber aplicar los fundamentos científicos del comportamiento físico y químico de los
materiales para saber relacionar causalmente sus propiedades fundamentales físicas y químicas con su
comportamiento y el de los productos con ellos realizados.
CE 5 - Ser capaz de entender, aprender, actualizar autónomamente y aplicar nuevos conocimientos, modelos y
técnicas experimentales y numéricas en relación con la composición y estructura de los materiales, su
caracterización física y química, sus procesos de fabricación, su utilización y aplicación científica y tecnológica, y
su reciclado, reutilización y eliminación.
CE 6 - Conocer, comprender y saber controlar y modificar los mecanismos físicos, químicos y biológicos que
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Puertos
determinan las fases del ciclo de vida de los materiales, su durabilidad y su incidencia en medioambiente con el fin
de poder evaluar, controlar y mejorar la seguridad, durabilidad e integridad estructural de los materiales y los
componentes fabricados con ellos
CG1 - Uso de la lengua inglesa para comunicar conocimientos, ideas y argumentos de manera clara, rigurosa y
convincente.
CG2 - Liderazgo de equipos capaces de desarrollar un trabajo conjunto armónico y con entusiasmo para la
consecución de los objetivos marcados y dentro plazos y recursos limitados.
CG3 - Creatividad para pensar o resolver de forma nueva y original situaciones o problemas en el ámbito de la
ciencia, la ingeniería y la tecnología.
CG4 - Organización y planificación para determinar eficazmente los fines, metas, objetivos y prioridades de la
tarea a desempeñar y organizar las actividades, los plazos y los recursos necesarios, controlando los procesos
establecidos
CG7 - Trabajo en contextos internacionales, siendo capaces de reconocer las diferencias económicas,
organizativas y sociales entre países según su entorno, saber integrar la diversidad cultural en el ámbito del
desarrollo de proyectos de ciencia e ingeniería así como conocer las diferentes respuestas dadas a los problemas
humanos y sociales en diferentes lugares del planeta.
CG9 - Adaptación a nuevas situaciones siendo capaz de reconocer situaciones nuevas y modificar la conducta
para integrarse y trabajar sin pérdida de eficiencia, con versatilidad y flexibilidad, en un ambiente competitivo
4.2. Learning outcomes
RA41 - Conocer y saber utilizar las técnicas experimentales para la caracterización mecánica, eléctrica y
magnética de los materiales desde el nivel molecular al macroscópico.
RA44 - Saber trabajar en equipo en entornos interdisciplinares, siendo capaz de organizar y planificar los trabajos.
RA17 - Conocimiento aplicado del funcionamiento de los dispositivos de semiconductores sobre los que se
desarrolla la optoelectrónica actual, y de la elección y tecnología de materiales necesarios para cumplir las
especificaciones requeridas en aplicaciones comerciales
RA16 - Conocimiento aplicado del funcionamiento de los dispositivos de semiconductores sobre los que se
desarrolla la electrónica actual, y de la elección y tecnología de materiales necesarios para cumplir las
especificaciones requeridas en aplicaciones comerciales
RA59 - Ser capaz de trabajar en equipo en entornos interdisciplinares.
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RA37 - Knowledge of what is needed in modern magnetic technology
RA18 - Conocer, comprender y saber aplicar los fundamentos científicos del comportamiento de los materiales y la
interrelación entre su estructura, propiedades, procesado y aplicaciones
RA26 - Poder diseñar un protocolo de paracterización de los materiales usados en una tecnología de fabricación
de dispositivos electrónicos de película delgada
RA23 - Conocer, comprender y saber aplicar las bases de la ciencia y del método científico
* The Learning Guides should reflect the Skills and Learning Outcomes in the same way as indicated in the Degree
Verification Memory. For this reason, they have not been translated into English and appear in Spanish.
5. Brief description of the subject and syllabus
5.1. Brief description of the subject
The students will become familiar with the most relevant techniques for optical, electrical and magnetic
characterization of functional materials and devices. They will learn the physical fundamentals of the different
techniques, and the working principles of the instruments involved. In addition, they will practically learn to use in
the laboratory some characterization systems. At the end of the work, they will be able to analyze and interpret the
measurements corresponding to the different techniques using the adequate computer tools.
Objectives
1) Learning the fundamentals of the main techniques
2) Becoming familiar with instrumentation and experimental set-ups
3) Learning how to use some standard characterization systems
4) Learning how to analyze and interpret the measurements
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5.2. Syllabus
1. Part 1: Electrical characterization
1.1. - Basic Concepts
1.2. Contact resistance
1.3. Electrical characterization I (doping and transport)
1.4. Electrical characterization II (defects)
1.5. Micro and Nano electrical characterization
1.6. Laboratory I: Nano characterization of electronic devices
2. Part 2. Optical characterization
2.1. Basic concepts
2.2. Instrumentation
2.3. Absorption, FTIR spectroscopy, photocurrent
2.4. Photoluminescence (PL) Spontaneous emission, direct
2.5. Electroluminescence (EL), Cathodoluminescence (CL), Thermoluninescence (TL)
2.6. Laboratory II: Measuring the PL spectrum of quantum wells, quantum wires and quantum dots.
3. Magnetic characterization
3.1. Introduction to Magnetism
3.2. Ferromagnetism and hysteresis loop
3.3. Experimental techniques in magnetism
3.4. Laboratory III: Measuring the Hysteresis loop and Curie Temperature of a ferromagnetic ribbon
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6. Schedule
6.1. Subject schedule*
Week Face-to-face classroom activities Face-to-face laboratory activities Distant / On-line Assessment activities
Master class
1 Duration: 04:00
Lecture
Master class
2 Duration: 04:00
Lecture
Laboratory I
3 Duration: 04:00
Laboratory assignments
Laboratory I
4 Duration: 04:00
Laboratory assignments
Laboratory I
5 Duration: 04:00
Laboratory assignments
Report lab I
Group work
6 Continuous assessment
Presential
Duration: 01:00
Master class
7 Duration: 04:00
Lecture
Master class
8 Duration: 04:00
Lecture
Laboratory II
9 Duration: 04:00
Laboratory assignments
Laboratory II
10 Duration: 04:00
Laboratory assignments
Laboratory II Exercises
Duration: 04:00 Individual work
11 Laboratory assignments Continuous assessment
Presential
Duration: 01:00
Report lab II
Group work
12 Continuous assessment
Presential
Duration: 01:00
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1S_2021-22 Master Universitario En Ingenieria De MaterialesPR/CL/001
ANX-PR/CL/001-01 E.T.S. de Ingenieros de
COORDINATION PROCESS OF
LEARNING GUIDE Caminos, Canales y
LEARNING ACTIVITIES
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Master class
13 Duration: 04:00
Lecture
Laboratory III
14 Duration: 04:00
Laboratory assignments
Laboratory III Report lab III
Duration: 04:00 Group work
15 Laboratory assignments Continuous assessment
Presential
Duration: 01:00
Intermediate exam
Written test
16 Continuous assessment
Presential
Duration: 02:00
Ordinary Exam
Written test
17 Final examination
Not Presential
Duration: 02:00
Depending on the programme study plan, total values will be calculated according to the ECTS credit unit as 26/27
hours of student face-to-face contact and independent study time.
* The schedule is based on an a priori planning of the subject; it might be modified during the academic year,
especially considering the COVID19 evolution.
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7. Activities and assessment criteria
7.1. Assessment activities
7.1.1. Continuous assessment
Minimum
Week Description Modality Type Duration Weight Evaluated skills
grade
CG3
CG4
CG7
CE 5
6 Report lab I Group work Face-to-face 01:00 10% 5 / 10 CE 6
CG1
CG9
CG2
CE 1
CG3
CG4
CG7
CE 5
Individual
11 Exercises Face-to-face 01:00 10% 5 / 10 CE 6
work
CG1
CG9
CG2
CE 1
CG3
CG4
CG7
CE 5
12 Report lab II Group work Face-to-face 01:00 10% 5 / 10 CE 6
CG1
CG9
CG2
CE 1
CG3
CG4
CG7
CE 5
15 Report lab III Group work Face-to-face 01:00 10% 5 / 10 CE 6
CG1
CG9
CG2
CE 1
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CG1
16 Intermediate exam Written test Face-to-face 02:00 60% 4 / 10
CE 1
7.1.2. Final examination
Minimum
Week Description Modality Type Duration Weight Evaluated skills
grade
CG3
CG4
CG7
CE 5
17 Ordinary Exam Written test No Presential 02:00 100% 5 / 10 CE 6
CG1
CG9
CG2
CE 1
7.1.3. Referred (re-sit) examination
Minimum
Description Modality Type Duration Weight Evaluated skills
grade
CG3
CG4
CG7
CE 5
Extraordinary exam Written test Face-to-face 02:00 100% 5 / 10 CE 6
CG1
CG9
CG2
CE 1
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7.2. Assessment criteria
The progress of the students will be monitored through the individual assignments and laboratory
1) The students will have to deliver several individual exercises, with special emphasis on practical aspects like the
analysis of real measurements corresponding to the different techniques. Resolution of the exercises will require
the usage of computer tools.
2) They will also make three group reports based on the measurements taken at the laboratory. They will have to
analyze and interpret the measurements and to answer several questions. Preparation of the reports will require
the usage of computer tools.
3) There will be a final exam composed of short theoretical questions and practical questions including data
analysis.
Evaluation:
Exercises - 10%
Laboratory reports - 30%
Exam - 60% (a mark equal or higher than 4.0 in the exam is required to pass the subject)
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8. Teaching resources
8.1. Teaching resources for the subject
Name Type Notes
D.K. Schroder, ?Semiconductor
Material and Device
Bibliography Electrical characterization
Characterization?, 3rd ed., Wiley
Interscience, 2006
Eugene Hecht, Optics, Addison-
Bibliography Optical Characterization
Wesley, 1990
B.D. Cullity & Graham, Introduction
to Magnetic Materials?, IEEE press ? Bibliography Magnetic characterization
Willey, 2009
9. Other information
9.1. Other information about the subject
ODS 4: Quality education
ODS 5: Gender equality
ODS 9:Industry, Innovation and Infraestructures
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1S_2021-22 Master Universitario En Ingenieria De Materiales
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