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Spectral Response of GaAs(Cs, NF3) Photocathodes
Teresa Esposito Mentors: I. Bazarov, L. Cultrera, S. Karkare
August 10, 2012
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• Photocathode is used in ERL gun • A laser pulse will trigger an electron bunch to
be released • Able to make electron bunches that are ideal
for the ERL – High Quantum Efficiency – Low Mean Transverse Energy
– Short time response
Photocathode Review
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Three Step Model of Photoemission
1) Photon absorption by an electron causing excitation from valence band to conduction band
2) Diffusion of electrons to the surface
3) Electrons escape from the bulk to the vacuum
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After Activation (NEA)
GaAs Photocathodes
Before Activation
Cs+
Cs+
Cs+
Cs+
Cs+
Electric field (Vdipole) +-
GaAs
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Lab Goals
• Study Process of Photoemission
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• Number of emitted electrons per incident photon – Shine a 532nm laser onto the surface of the
cathode – Causes photoemission and creates a current – Current is measured using a picoammeter – Use laser power (Lp) and photocurrent (Pc) to
calculate QE
Measuring Quantum Efficiency
!"= $%∗ℎ∗% /)*∗+∗λ
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• Sample 1: – P-doped with Zn, doping level 6.3x1018 and
1.9x1019 holes/cm3 – Cleaned with Acetone, Trichloroethylene and
Anodized – Heated to 650˚C under vacuum
• Sample 2: – GaAs grown by molecular beam epitaxy under UHV – Top 1000nm p-doped with C, doping level 2.0x1018
holes/cm3 – Covered with As Cap to protect from air – Heated to 300˚C under vacuum
GaAs Samples
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As Cap Removal
Pressure vs Time
Partial Pressures vs Time
Temperature vs Time
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• Yo-yo activation • Sample 1
– Consistent activation to 10% QE
– 1/e Lifetime~80 hours
• Sample 2 – Activation to 4.2% QE – 1/e Lifetime~25hours
Activation With Cs and NF3 Sample 1
Sample 2
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• Sample 1 Before and After (same position)
• Sample 2 Before and After
Reflective High Energy Electron Diffraction
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• Measure QE as a function of wavelength • After the cathode is activated, QE is measured
using a monochromator instead of a laser • Isolates out one wavelength of light
Spectral Response
Laser used for activation Beam Splitter Optical
Chopper Monochromator
Powermeter
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Spectral Response on Sample 1 & 2
• Continued measurements as cathode dies
• Band gap=1.33 eV (~900nm) • Beyond band gap nothing gets excited • When vacuum level is higher, even the excited
electrons can’t escape
Sample 2
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• Sample 2 behaves as Sample 1 after partial killing: may have never reached NEA
• Barrier is higher on Sample 2
Comparison
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• QE can be calculated by modeling diffusion of electrons in GaAs
• Start and stay in a thermalized distribution • GaAs properties
– R(hf)=optical reflectivity – α(hf)=optical absorption coefficient – L=electron diffusion length (1.6µm)
• Surface Properties – B=Surface escape probability
Theoretical Calculation of SR
!"(ℎ-)= .[1−/(ℎ-)]/1+ 1/∝(ℎ-))
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• Drawbacks of theory
– Does not explain band bending, barrier, scattering…
Experiment vs Theory B=20%
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• Begin with electrons in a distribution caused by laser penetration
• Simulates the behavior of electrons in activated GaAs cathodes and tracks their position
Monte Carlo Simulations
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• We can run the code multiple times changing various parameters
• QE vs Incident Photon Energy – Can compare to experiment from spectral response
• Also changed was Surface Barrier height – Maximum Barrier= 0.28eV above Surface Barrier – Barrier Width= 0.8 nm
Running the Code
eV
m
X
L
Γ
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Sample 1 Simulation
• Doping level=1.0x1019
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• RHEED: after activation, the pattern gets more diffused
• Sample 1 has a smaller surface barrier than sample 2
• Sample 2 never reached negative affinity • Monte Carlo simulations explain the experiment
until about 1.8eV, so more work must be done to improve the code
Conclusions
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• Siddharth, Ivan, Eric, Bill, Xianghong, Adam, Tobey, and Luca
• ERL Group • NSF • Cornell REU program
Acknowledgements