| GROUP 1 | GROUP 2 | GROUP 3 | GROUP 4 | GROUP 5 | GROUP 6 | GROUP 7 | GROUP 8 | |
| Koray Yavuz | Inci Güler | Batuhan Gayretli | Ş.Berkay Kılıç | M. Çağatay Karakan | Enes Sinan Parıldı | Muhamet Ibrahimi | Artūras Grabusovas | |
| Doruk Gökmen | Furkan Altincicek | Efekan Kökcü | Berkan YILMAZ | Levent Aslanbaş | Zübeyr Furkan Eryılmaz | Omer Hamza Acikoz | Linas Šimatonis | |
| Gamze Gül | Baris Evran | Abdullah Bera İçli | Berkan KILIÇ | Kaan Akyüz | Makbule Kübra Korkmaz | Muhamad Mahmudov | Züleyha Bingül | |
| Kagan Basa | ||||||||
| 22/02/2016 | Exp2 | Exp3 | Exp4 | Exp1 | Exp5 | Exp6 | Exp7 | Exp9 |
| 29/02/2016 | Exp3 | Exp6 | Exp1 | Exp5 | Exp4 | Exp7 | Exp9 | Exp2 |
| 6/3/2016 | Exp6 | Exp1 | Exp5 | Exp4 | Exp7 | Exp9 | Exp2 | Exp10 |
| 13/3/2016 | Exp1 | Exp5 | Exp3 | Exp7 | Exp9 | Exp2 | Exp10 | Exp6 |
| 21/3/2016 | Exp5 | Exp4 | Exp7 | Exp9 | Exp2 | Exp10 | Exp6 | Exp1 |
| 28/3/2016 | No lab | No lab | No lab | No lab | No lab | No lab | No lab | No lab |
| 5/4/2016 | Exp4 | Exp7 | Exp9 | Exp2 | Exp10 | Exp3 | Exp1 | Exp5 |
| 11/4/2016 | Exp7 | Exp9 | Exp10 | Exp2 | Exp3 | Exp1 | Exp5 | Exp4 |
| 18/04/2016 | Exp9 | Exp10 | Exp2 | Exp3 | Exp1 | Exp5 | Exp4 | Exp7 |
| 25/04/2016 | Exp10 | Exp2 | No lab on monday | No lab on monday | Exp 6 | Exp4 | No lab on monday | Exp3 |
| 2/5/2017 | No lab on monday | No lab on monday | Exp 6 | Exp8 | No lab on monday | No lab on monday | Exp3 | No lab on monday |
Exp1: Central Limit Theorem
In this experiment you will experimentally test the Central Limit Theorem.
Exp2. Measuring speed of light
Setup , fiber optic cable, procedure, video
Exp3. Magnetic properties of superconductor.
In this experiment you will measure the complex magnetic susceptibility of high-TC superconductors using mutual inductance method.
Read: http://egmrs.powweb.com/EJS/PDF/vo232/231.pdf
Exp 4: Computer controlled data acquisition using Labview programming.
Please watch the tutorials on Labview programming. Tutorial 1, Tutorial 2, Tutorial 3
Exp5. Temperature measurements with thermocouple and diode.
In this experiment you will study two different temperature measurements using thermocouple and a diode. You will built an op-amp amplifier with a gain of 100 to measure the voltage generated by the thermocouple.
Documents: OP 07:
Exp6. Measuring intensity of light with a photodiode:
In this experiment you will build a current to voltage converter (Transimpedance Amplifiers ) to measure photocurrent generated on a photodiode.
Read: Transimpedance Amplifiers
Exp7. Hall Effect in graphene:
In this experiment you will measure Hall voltage on graphene, atomically thin 2D crystal of carbon.
Exp9. Two Slit Interference, One Photon at a Time, setup, video
Exp 10: Electron diffraction from crystals: movie
Exp. Building an amplifier:
In this experiment you will built an amplifier with variable gain using operational amplifier.
Read chapter 3
Exp: Stability of an oscillator:
In this experiment you will measure the precision of CD4060 based oscillator and 1MHz oscillator. To measure the stability of the oscillator, you have to build two identical oscillator and multiply the generated signal and measure the beat frequency.
Read: http://tf.nist.gov/phase/Properties/one.htm
Watch: https://www.youtube.com/watch?v=R5OgK0qNpek
Read: http://www.doctronics.co.uk/4060.htm
Read: Data sheet of CD4060
Read: modulator: AD630
Exp. Resistance measurement:
In this experiment you will study how to remove contact resistance during a resistance measurement using 4-point measurement and transfer line method.
Read: http://en.wikipedia.org/wiki/Four-terminal_sensing
Read: https://www.academia.edu/2719392/Electrical_conductivity_and_resistivity
Exp. Capacitance measurement:
In this experiment you will learn how to measure impedance using a lock-in amplifier. As an application you will measure the capacitance of a quadruple measurable capacitor which is used for capacitance metrology.
Exp. Ferroelectric materials.
In this experiment you will measure dielectric constant of a ferroelectric and observe hysteresis due to the polarization and measure the surface charge on the ferroelectric material.
Exp. Magnetic properties of ferromagnetic materials.
In this experiment you will measure magnetization of a ferromagnetic material and you will measure M-H curve of a ferromagnetic material.
Read chapter 14. The experimental setup is shown in section 14.3.
———————————————————————-
Phys 375: Experimental Optics
Exp.1: Fourier transform infrared spectroscopy (FTIR)
Exp2. Speed of light: Setup , fiber optic cable, procedure, video
Exp4. Diffraction from a helical structure: Part 1 and Part 2, Answer sheet 1, Answer sheet 2,
Exp 5. Building an optical spectrometer
Exp6. Polarization and 3D Cinema Technology
Exp7. Birefringence in Calcite Crystals: Read Chapter 15 and section “Birefringence”
Exp8. Measuring index of refraction, polar chart
Exp9. Two Slit Interference, One Photon at a Time, setup, video
Exp10. Mechanical model for Kramers–Kronig relations, Setup, Procedure
Exp11. Berry’s Phase, paper, Setup, Procedure
Exp13.Fresnel Equations: Setup, Procedure, Read chapter 20 from “Introduction to Optics”,
Schedule: