Ders Kodu Ders Adı Teorik Uygulama Laboratuvar Yerel Kredi AKTS
NST611 OPTİK TUZAKLAMA 3,00 0,00 0,00 3,00 6,00

Ders Detayı
Dersin Dili : İngilizce
Dersin Seviyesi : Yüksek Lisans
Ön Koşullar : Yok
Dersin Amacı : Optical trapping and other optical manipulation techniques have heralded a revolution in the study of microscopic systems, spearheading new and more powerful techniques, e.g., to study biomolecules, to measure forces that act on a nanometre scale and to explore the limits of quantum mechanics. This course covers the theory of optical tweezing, providing intuitive and rigorous explanations of the physics behind optical trapping and manipulation, an introduction to the numerical methods most commonly employed in the study of optical forces and torques, and a detailed explanation of the dynamics of optically trapped particles. It also provides an overview of some of the most exciting applications that optical trapping-tweezers have found in various fields, from the study of biological systems to the investigation of the quantum limit for trapped mesoscale objects.
Dersin İçeriği : Optical trapping and other optical manipulation techniques have heralded a revolution in the study of microscopic systems, spearheading new and more powerful techniques, e.g., to study biomolecules, to measure forces that act on a nanometre scale and to explore the limits of quantum mechanics. This course covers the theory of optical tweezing, providing intuitive and rigorous explanations of the physics behind optical trapping and manipulation, an introduction to the numerical methods most commonly employed in the study of optical forces and torques, and a detailed explanation of the dynamics of optically trapped particles. It also provides an overview of some of the most exciting applications that optical trapping-tweezers have found in various fields, from the study of biological systems to the investigation of the quantum limit for trapped mesoscale objects.
Dersin Kitabı / Malzemesi / Önerilen Kaynaklar : Optical Tweezers: Principles and Applications, Philip H. Jones, Onofrio M. Maragò & Giovanni Volpe
Planlanan Öğrenme Etkinlikleri ve Öğretme Yöntemleri : Teorik dersler ve uygulama
Ders İçin Önerilen Diğer Hususlar : Teorik dersler ve uygulama
Dersi Veren Öğretim Elemanları : Dr. Öğr. Üyesi Aziz Kolkıran
Dersi Veren Öğretim Elemanı Yardımcıları : Erdal Kurt
Dersin Verilişi : örgün

  • 1 explain the theory of ray optics, opticsl beams and focusing and dipole approximation.
  • 2 explain the the Brownian motion
  • 3 describe how the detrimental effects of environmental noise can be mitigated for optical trapping
  • 4 explain the basic design principles to design and develop optical tweezers
  • 5 summarize recent research results that showcase development and applications of optical trapping

Ders Kodu Ders Adı Teorik Uygulama Laboratuvar Yerel Kredi AKTS

Teorik Uygulama Laboratuvar Hazırlık Bilgileri Öğretim Metodları
1.Hafta *Ray Optics
2.Hafta *Ray Optics
3.Hafta *Dipole Approximation
4.Hafta *Optical Beams and Focusing
5.Hafta *Brownian Motion
6.Hafta *Building an Optical Tweezers
7.Hafta *Data Acquisition and Optical Tweezers Calibration
8.Hafta *Photonic Force Microscope
9.Hafta *Wavefront Engineering and Holographic Optical Tweezers
10.Hafta *Applications to Single Molecule Biophysics
11.Hafta *sunumlar
12.Hafta *sunumlar
13.Hafta *sunumlar
14.Hafta *sunumlar

  • 1 Ara Sınav (Bütünlemede Kullanılan) : 20,000
  • 2 Araştırma Sunumu : 20,000
  • 3 Final : 60,000

Aktiviteler Sayı Süresi(Saat) Toplam İş Yükü
Vize 1 2,00 2,00
Ödev 5 5,00 25,00
Proje 1 20,00 20,00
Final 1 3,00 3,00
Derse Katılım 15 3,00 45,00
Ders Öncesi Biresysel Çalışma 15 1,00 15,00
Ara Sınav Hazırlık 1 10,00 10,00
Final Sınavı Hazırlık 1 20,00 20,00
Küçük Grup Çalışması 3 10,00 30,00
Toplam : 170,00
Toplam İş Yükü / 30 ( Saat ) : 6
AKTS : 6,00