Two photon photoemission.
2PPE Setup In this work, setting up a two photon photoemission (2PPE) system was attempted. The 2PPE setup consists of the third harmonic generation (THG) setup and optical components leading the THG output to the UHV chamber. Power conversion was at 30 mW maximum, which translates to maxim...
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Format: | Final Year Project |
Language: | English |
Published: |
2013
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Online Access: | http://hdl.handle.net/10356/53657 |
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Institution: | Nanyang Technological University |
Language: | English |
Summary: | 2PPE Setup In this work, setting up a two photon photoemission (2PPE) system
was attempted. The 2PPE setup consists of the third harmonic generation
(THG) setup and optical components leading the THG output to the UHV chamber.
Power conversion was at 30 mW maximum, which translates to maximum
conversion e ciency to three percent from the fundamental light.
Challenges and Experiments Performed Over the course of this work, key
challenges lie in optimizing the THG setup. Several problems were encountered
in the THG setup, mainly low e ciency of THG conversion, long duration required
to vary photon wavelength and stabilizing its output, and the instability
in modelocking of Mira due to degradation of BBO used for SHG. Preliminary
2PPE experiments, namely angle-resolved 2PPE (AR-2PPE) and photon energy
dependent 2PPE measurements could still be performed. The sample which was
chosen was a graphene nanoribbon (GNR) sample on gold substrate. This sample
was chosen since there were not much 2PPE works on it with only one published
work [3] at current time of writing.Results and Concluding Remarks AR-2PPE and photon energy dependent
2PPE were successfully performed on GNR/Au and the electronic structure of the
unoccupied and occupied states of GNR were observed. Three unoccupied states
shows energy dispersion, indicating charge mobilities in the material. Photon energy
dependent 2PPE measurements showed the state positions of these energy
levels. This gives a picture of the electronic structure of the GNR/Au, showing
a glimpse of the potential 2PPE technique has in complementing optical spectroscopic
techniques to perform full characterization of the system.
Ongoing Work in Setting Up TR-2PPE Ongoing work is in progress in setting
up TR-2PPE in our lab. Optics directing the third harmonic (pump beam)
and second harmonic (probe beam) light to the UHV chamber were set up. Existing
electronics for the electron analyzer were modi ed by setting up a summing
ampli er to combine the analog outputs of individual channeltrons to a single output
for data acquisition. Existing pump probe software was modi ed to make it
compatible with the electronics built for TR-2PPE. Details about the work in setting
up the individual components of the TR-2PPE setup can be found in Section
4.5. Time-resolved measurements could not be performed since time-zero was not
found due to the low e ciency of the THG output and the problem of spatial
overlap of the pump and probe on the sample. Future work entails optimizing the
THG setup for TR-2PPE experiments and address the problems faced in setting
up TR-2PPE. |
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