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PHY 114 A General Physics II 11 AM-12:15 PM TR Olin 101

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Presentation on theme: "PHY 114 A General Physics II 11 AM-12:15 PM TR Olin 101"— Presentation transcript:

1 PHY 114 A General Physics II 11 AM-12:15 PM TR Olin 101
Plan for Lecture 24 (Chapter 43): Some topics in the physics of molecules and solids Physics of atoms Physics of molecules Physics of solids 11/9/2018 PHY 114 A Spring Lecture 24

2 11/9/2018 PHY 114 A Spring Lecture 24

3 Webassign hint: 11/9/2018 PHY 114 A Spring Lecture 24

4 Webassign hint -- continued:
electron beams Interfering f q Bragg condition: 2d sin q = l 11/9/2018 PHY 114 A Spring Lecture 24

5 d1+ d2=2d sin q = m l Webassign hint -- continued: electron beams
Interfering q f Bragg condition: 2d sin q = l d1 d2 d= d1 sin q d1+ d2=2d sin q = m l 11/9/2018 PHY 114 A Spring Lecture 24

6 Some ideas of quantum theory discussed last time:
Matter wave equation – Schrödinger equation: 11/9/2018 PHY 114 A Spring Lecture 24

7 Example: Suppose we want to create a beam of electrons (m=9
Example: Suppose we want to create a beam of electrons (m=9.1x10-31kg) for diffraction with l=1x10-10m. What is the energy E of the beam? 11/9/2018 PHY 114 A Spring Lecture 24

8 Recall de Broglie’s relation between wavelength and momentum:
Which has the larger de Broglie wavelength: An electron with a velocity of 100 m/s (mass = 9.1x10-31 kg) A baseball with a velocity of 100 m/s (mass = 1 kg) 11/9/2018 PHY 114 A Spring Lecture 24

9 Another example -- electron bound to a proton: (H atom)
11/9/2018 PHY 114 A Spring Lecture 24

10 Quantum theory for electromagnetic radiation
The transition between bound quantum states can correspond to the emission (production) or absorption (consumption) of electromagnetic quanta: |DE| 11/9/2018 PHY 114 A Spring Lecture 24

11 Energy level diagram for H atom
11/9/2018 PHY 114 A Spring Lecture 24

12 Physics of molecules – H2 Recall for H atom:
11/9/2018 PHY 114 A Spring Lecture 24

13 Physics of molecules – H2 -- continued
11/9/2018 PHY 114 A Spring Lecture 24

14 Physics of molecules – H2 -- continued
R R R 11/9/2018 PHY 114 A Spring Lecture 24

15 Physics of molecules – continued
Energy diagram for NaCl molecule as a function of ion separation Stable equilibrium 11/9/2018 PHY 114 A Spring Lecture 24

16 Physics of molecules – continued Vibration about equilibrium point
11/9/2018 PHY 114 A Spring Lecture 24

17 Physics of molecules – continued Vibration about equilibrium point
Given that f0=6x1013 cycle/s for a vibrating CO molecule, if this vibration were to couple to EM radiation, what would be the wavelength of light? A. 5x10-6m B. 2x105m C. 1x10-47m 11/9/2018 PHY 114 A Spring Lecture 24

18 Physics of molecules and solids
effective potential for electron in molecule or solid Example: electron density associated with H2 molecule: CH4 molecule: 11/9/2018 PHY Lecture 32

19 Molecular binding of nuclei due to electron “glue”:
V(R) V(R) ionic interaction Dissociation energy R 11/9/2018 PHY Lecture 32

20 effective potential for electron in molecule or solid
Physics of solids Energy spectrum of atom or molecule : highest filled state for metal highest filled state for insulator 11/9/2018 PHY Lecture 32

21 Insulator Metal 11/9/2018 PHY 114 A Spring Lecture 24

22 Eg=5.5 eV Eg=0.0 eV Example: 2 materials made of pure carbon:
graphite (semi-metal) diamond (insulator) Eg=5.5 eV Eg=0.0 eV 11/9/2018 PHY Lecture 32

23 Which photo is diamond? A. left B. right 11/9/2018
PHY 114 A Spring Lecture 24

24 Some energy band gaps: C (diamond) 5.5 eV SiO2 (quartz) 8.9
NaCl (rock salt) Two images of quartz: 11/9/2018 PHY 114 A Spring Lecture 24

25 Semi-conductor materials; Eg < 5 eV or so
11/9/2018 PHY 114 A Spring Lecture 24

26 Electron conductivity in metals and semiconductors:
In a perfect semiconductor at T=0K n=0. To control conduction, impurities are introduced. 11/9/2018 PHY 114 A Spring Lecture 24

27 Electron doping “Hole” doping 11/9/2018
PHY 114 A Spring Lecture 24

28 Semiconductor devices; combining electron doped and hole doped materials to control the flow of mobile charriers 11/9/2018 PHY 114 A Spring Lecture 24

29 Photovoltaic devices 11/9/2018 PHY 114 A Spring Lecture 24

30 System with ground and excited state at desired l (Eex-Eg=hc/l).
Laser technology: System with ground and excited state at desired l (Eex-Eg=hc/l). Standing EM wave Mechanism for “population inversion” 11/9/2018 PHY Lecture 32

31 “Inverted” population
Normal population “Inverted” population 11/9/2018 PHY Lecture 32

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