Ders Kodu Ders Adı Teorik Uygulama Laboratuvar Yerel Kredi AKTS
NBT612 KUANTUM SENSÖRLERİ 3,00 0,00 0,00 3,00 6,00

Ders Detayı
Dersin Dili : Türkçe
Dersin Seviyesi : Yüksek Lisans
Ön Koşullar : Yok
Dersin Amacı : The primary goal of the course is to describe those aspects of quantum phenomena that can be harnessed in order to design and develop novel sensing devices.
Dersin İçeriği : This course uses an information-theoretic approach to identify and explain the basic design principles and potential applications of quantum sensors. A primary goal of the course is to describe those aspects of quantum phenomena that can be harnessed in order to design and develop novel sensing devices. To this end, the course summarizes recent theoretical and experimental results that showcase the feasibility of quantum sensors. In addition, the course compares the theoretical performance of quantum sensors with their classical counterparts in the areas of radar, lidar, photo-detection, magnetometry, and gravimetry.
Dersin Kitabı / Malzemesi / Önerilen Kaynaklar : Quantum Imaging and Sensing with Entangled Photons: Heisenberg limited measurements with entangled light, Aziz Kolkıran, VDM Verlag (September 9, 2009)
Planlanan Öğrenme Etkinlikleri ve Öğretme Yöntemleri : explain the difference between classical and quantum information explain the difference between classical and quantum sensing describe the role played by quantum entanglement and superposition in the design of quantum sensors describe how the detrimental effects of environmental quantum noise can be mitigated explain the basic design principles to design and develop novel quantum sensors summarize recent research results that showcase the feasibility of quantum sensing describe the potential applications and advantages of quantum radar, lidar, photo-detection, magnetometry, and gravimetry compare the theoretical performance of quantum and classical sensing devices
Ders İçin Önerilen Diğer Hususlar : yok
Dersi Veren Öğretim Elemanları : Dr. Öğr. Üyesi Aziz Kolkıran
Dersi Veren Öğretim Elemanı Yardımcıları : yok
Dersin Verilişi : örgün

  • 1 explain the difference between classical and quantum information
  • 2 explain the difference between classical and quantum sensing
  • 3 describe the role played by quantum entanglement and superposition in the design of quantum sensors
  • 4 describe how the detrimental effects of environmental quantum noise can be mitigated
  • 5 explain the basic design principles to design and develop novel quantum sensors

Ders Kodu Ders Adı Teorik Uygulama Laboratuvar Yerel Kredi AKTS

Teorik Uygulama Laboratuvar Hazırlık Bilgileri Öğretim Metodları
1.Hafta *Basics of Quantum Mechanics 1
2.Hafta *Basics of Quantum Mechanics 1
3.Hafta *Basic Quantum Optics
4.Hafta *Sensitivity and Heisenberg Limited Measurements
5.Hafta *Quantum Interferometers 1
6.Hafta *Quantum Interferometers 1
7.Hafta *Quantum Magnetometers 1
8.Hafta *Quantum Magnetometers 1
9.Hafta *Quantum Imaging
10.Hafta *Quantum Imaging
11.Hafta *Quantum Theory of Nanomechanical Oscillators
12.Hafta *Quantum Opto-Mechanical Sensors
13.Hafta *Students Presentations
14.Hafta *Students Presentations

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