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Photons and PhotoElectrons

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Title: Photons and PhotoElectrons


1
Photons and PhotoElectrons
  • Kahuna

2
The photon
  • A particle of light
  • A quantum of light energy
  • The energy of a given photon depends on the
    frequency (color) of the light

3
But light is also a wave!
  • Travels at constant speed c in a vacuum.
  • c lf
  • c 3 x 108m/s
  • l wavelength (m)
  • f frequency (Hz)

4
Calculating photon energy
  • E hf
  • E energy (J or eV)
  • h Plancks constant
  • 6.625?10-34 J s or 4.14 ?10-15 eV s
  • f frequency of light (s-1, Hz)

5
The electron-volt (eV)is an energy unit
  • Useful on the atomic level.
  • If a moving electron is stopped by 1 V of
    electric potential, we say it has 1 electron-volt
    (or 1 eV) of kinetic energy!

6
Converting eV to Joules (J)
  • 1 eV 1.602?10-19J

7
Photoelectric Effect experiment
Collector (-)
Photo- Diode ()
At a certain voltage, Vs, the current cant flow
anymore!
e-
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V
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A
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8
Anomalous Behavior in Photoelectric Effect
  • Voltage necessary to stop electrons is
    independent of intensity (brightness) of light.
  • Photoelectrons are not released below a certain
    frequency, regardless of intensity of light.
  • The release of photoelectrons is instantaneous,
    even in very feeble light, provided the frequency
    is above the cutoff.

9
Voltage current for different intensities of
light.
i
I3 gt I2 gt I1
V
Stopping potential is unaffected!
10
Voltage versus current for different frequencies
of light.
f3 gt f2 gt f1
i
V
Stopping potential becomes more negative at
higher frequencies!
11
Photoelectric Effect
  • Ephoton Kmax Wo
  • Ephoton hf (Plancks equation)
  • Kmax maximum kinetic energy of electrons
  • Wo binding energy or work function
  • hf Kmax Wo

12
Graph of Photoelectric Equation
hf Kmax Wo Kmax hf - Wo y mx b
Kmax
f
13
Absorption Spectrum
  • Photon is absorbed and excites atom to higher
    quantum energy state.

14
Absorption Spectrum
  • Absorption spectra always involve atoms going up
    in energy level.

15
Emission Spectrum
  • Photon is emitted and atom drops to lower quantum
    energy state.

16
Emission Spectrum
  • Emission spectra always involve atoms going down
    in energy level.

17
Summary of Wave-Particle Duality
  • Waves are particles and particles are waves

18
Energy
  • Particle
  • E K U
  • Photon
  • E hf

19
Momentum
  • Particle
  • p mv
  • Photon
  • p h/l

20
Wavelength
  • Photon
  • l c/f
  • Particle
  • l h/p
  • deBroglie wavelength

21
Compton Scattering
  • Proof of the momentum of photons.
  • High-energy photons collided with electrons.
  • Conservation of momentum.
  • Scattered photons examined to determine loss of
    momentum.

22
Davisson-Germer Experiement
  • Verified that electrons have wave properties by
    proving that they diffract.
  • Electron diffraction
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