34022 Optical properties of materials (2020/2021)

34022 Optical properties of materials

2020/2021

Kursusinformation

Engelsk titel	Optical properties of materials
Undervisningssprog	Engelsk
Point( ECTS )	5
Kursustype	Bachelor Kurset udbydes som enkeltfag

Skemaplacering	E2B (tors 8-12)
Undervisningens placering	Campus Lyngby
Undervisningsform	Several of the lectures will be in the form of group work, where the students will be able to design simple structures behaving like materials having the desired optical properties.
Kursets varighed	13-uger
Eksamensplacering	E2B
Evalueringsform	Mundtlig eksamen og bedømmelse af øvelser
Hjælpemidler	Uden hjælpemidler
Bedømmelsesform	7-trins skala , ekstern censur
Anbefalede forudsætninger	10041 , or any other courses with basic knowledge of optics and electromagnetism

Kursusansvarlig	Radu Malureanu , Lyngby Campus, Bygning 345A, Tlf. (+45) 4525 6377 , rmal@fotonik.dtu.dk
Institut	34 Institut for Fotonik
Tilmelding	I studieplanlæggeren
Mulighed for GRØN DYST deltagelse	Kontakt underviseren for information om hvorvidt dette kursus giver den studerende mulighed for at lave eller forberede et projekt som kan deltage i DTUs studenterkonference om bæredygtighed, klimateknologi og miljø (GRØN DYST). Se mere på http://www.groendyst.dtu.dk

Overordnede kursusmål

The course delivers an introduction to the basics of optics and photonics aiming to familiarise the students with the concept of light as an electromagnetic wave, and its interaction with materials in the broad range of frequencies. Therefore, a short introduction into material properties (dielectrics, metals, semiconductors), seen from a light-matter interaction will be provided. Further on we introduce the concept of structured materials with engineered properties also known as metamaterials and consider their potential properties and applications. We focus on the state-of-the-art of the optical materials (natural and engineered) and current trends in their developing. Examples of metamaterials in optics and acoustics and their commercialization potential will be provided. The course will also discuss the possibilities and challenges in fabrication of optical materials for the broad range of working frequencies. Having passed the “34020 Optics and photonics” course would constitute an advantage, but the students will be introduced to the main needed concepts during the course.

Læringsmål

En studerende, der fuldt ud har opfyldt kursets mål, vil kunne:

Describe why a material can be classified as metal, semiconductor or dielectric on a classical and on a quantum levels
Describe the physical meaning of Maxwell’s equations
Derive the wave equation form Maxwell’s equations, find and explain solutions in a different media
Explain the concept of permittivity and permeability in a standard material as well as describe their influence on wave propagation within that material
Describe and apply the boundary conditions in order to find the properties of a wave at the interface between two materials
Calculate the effective parameters of MMs
Describe the fabrication possibilities for MMs and predict their properties.
Discuss the fabrication limitations and their influence on the properties of the MMs

Kursusindhold

The following concepts and phenomena will be discussed:
- Mathematics of vector operations (cross and dot products), and operations between
vectors and scalars
- Maxwell’s equations and wave equation
- Optical properties of materials via dielectric permittivity and magnetic permeability
- The free electron gas model and its improvements to reflect real metals
- Electric and magnetic fields boundary conditions
- Effective medium approximation and its limitations
- Propagation of the waves in various materials and metamaterials
- Basic nano-fabrication techniques and their limitations
- Influence of the fabrication possibilities on the properties of the metamaterials

Sidst opdateret

07. maj, 2020