Ders Öğretim Planı

Ders Kodu Ders Adı Ders Türü Yıl Dönem AKTS
ENNT621 Nanophotonıcs 927003 1 1 8

Dersin Amacı

Nanophotonics will give infrastructure to build new technologies, devices and applications in an interdisiplinary fashion in the fields of materials science, chemistry, electrical engineering, biology, and medicine. Theoretical information, exercises, problems, solutions of light-matter interactions in nanoscale will be provided.

Dersin Veren Öğretim Görevlisi/Görevlileri

Asst.Prof.Dr. İbrahim İnanç

Ön Koşul Dersleri

Yok

Önerilen Diğer Hususlar

Yok

Ders Kitabı / Malzemesi / Önerilen Kaynaklar

L. Novotny, B. Hecht,”Principles of Nano-optics, Cambridge University Press, 2006. P. N. Prasad, , “Nanophotonics”, John Wiley and Sons, 2004.. Z. M. Wang, A. Neogi, “Nanoscale Photonics and Optoelectronics”, Springer, 2010. M. Ohtsu, K. Kobayashi, T. Kawazoe, T. Yatsui, M. Naruse, “Principles of Nanophotonics”, Taylor & Francis, 2010. Sergey V. Gaponenko, “Introduction to Nanophotonics”, Cambridge University Press, 2010.

Dersin Sunulduğu Dil

İngilizce

Staj Durumu

Yok

Dersin İçeriği

This course will provide a basic understanding for nanophotonic applications and plasmonics, polaritons, nanoantenna, near-field optics, photonic crystals, nanophotonic architectures and nanobiophotonics. Information about photonic nanomaterials and quantum dots will be given. Light-matter interaction, comparison of wave mechanics and wave optics, quantum confinement effects, electrons in periodic structures and tunneling behavior of light in nanostructures will be investigated.

Haftalık Ders İçeriği

Hafta Teorik Uygulama Laboratuar Ders Notları
1 Light and matter in the nanometer scale
2 Basic properties of electromagnetic waves and quantum particles
3 Wave mechanics and wave optics
4 Periodic structures and quantum effects
5 Semiconductor nanocrystals (quantum dots)
6 Nanoplasmonics I: Metal nanoparticles
7 Light in periodic structures: photonic crystals
8 Light in non-periodic structures
9 Midterm Exam
10 Photonic circuits
11 Tunneling of Light
12 Nanoplasmonics II: Metal-dielectric Nanostructures
13 Light - matter interaction: introduction to quantum electrodynamics
14 Energy states in optical processes of mesoscopic structures
15
16

Dersin Öğrenme Çıktıları

# Öğrenme Çıktı Id Açıklama
1 1211163 To learn how the light and matter interact on the nanoscale
2 1211172 Some applications in nanotechnology and biotechnology to be learned
3 1211179 Students will be able to apply quantum physics and electro-magnetic wave equations and related information to the nanoscale.
4 1211198 To learn to control, analyze and solve the behavior of light in different media

Bölüm Program Çıktıları

# Program Çıktı Id Açıklama