CHAPTER 8 - Ultrafast Multiphoton Photoemission Microscopy of Solid Surfaces in Real and Reciprocal Space
Identifieur interne : 005B51 ( Main/Exploration ); précédent : 005B50; suivant : 005B52CHAPTER 8 - Ultrafast Multiphoton Photoemission Microscopy of Solid Surfaces in Real and Reciprocal Space
Auteurs : A. Winkelmann [Allemagne, Japon, États-Unis] ; C. Tusche [Allemagne, Japon, États-Unis] ; A. A. Ünal [Allemagne, Japon, États-Unis] ; C.-T. Chiang [Allemagne, Japon, États-Unis] ; A. Kubo [Allemagne, Japon, États-Unis] ; L. Wang [Allemagne, Japon, États-Unis] ; H. Petek [Allemagne, Japon, États-Unis]Source :
- RSC Energy and Environment Series [ 2044-0774 ]
Descripteurs français
- Wicri :
- topic : Droit d'auteur.
English descriptors
- KwdEn :
- Adsorbate, Alkali atoms, American chemical society, Bulk states, Bulk transition, Chem, Clean surface, Coherent, Coherent polarization, Collective response, Copyright, Dephasing, Dielectric, Dielectric properties, Dispersion, Dispersion function, Dynamics, Echenique, Eld, Electromagnetic, Electronic states, Electronic structure, Electronic system, Excitation, Excitation light, Excitation pulses, Fdtd simulations, Femtosecond, Figure chapter, Focal plane, Free electrons, Grating, Image plane, Imaging, Incident light, Initial state, Initial states, Interface, Interference pattern, Intermediate state, Intermediate states, Kspp, Kubo, Laser, Lett, Light line, Localized, Mesa structures, Metal surface, Microscopy, Momentum, Momentum distributions, Momentum imaging, Momentum microscope, Momentum mismatch, Multiphoton, Nano lett, Nanometre, Nanostructured metal, Nonlinear, Ogawa, Optical excitation, Particular interest, Pathway, Peem, Peem image, Petek, Photoelectron, Photoelectron energies, Photoelectron energy, Photoemission, Photoemission signal, Photoemitted, Photoemitted electrons, Photon, Photon energy, Phys, Plasmon, Plasmonic, Plasmonic modes, Probe pulse, Probe pulses, Propagates, Propagating, Pulse, Quantum interference, Resonant, Semiconductor, Semiconductor surfaces, Single crystal surfaces, Single particle excitations, Solar energy conversion, Solid surfaces, Solid surfaces figure, Spatial distribution, Spatial resolution, Spectroscopic, Spectroscopy, Such structures, Surf, Surface states, Time resolution, Ultrafast, Ultrafast multiphoton photoemission, Ultrafast multiphoton photoemission microscopy, Unoccupied, Unoccupied bands, Unoccupied state, Unoccupied states, Wave front, Work function.
- Teeft :
- Adsorbate, Alkali atoms, American chemical society, Bulk states, Bulk transition, Chem, Clean surface, Coherent, Coherent polarization, Collective response, Copyright, Dephasing, Dielectric, Dielectric properties, Dispersion, Dispersion function, Dynamics, Echenique, Eld, Electromagnetic, Electronic states, Electronic structure, Electronic system, Excitation, Excitation light, Excitation pulses, Fdtd simulations, Femtosecond, Figure chapter, Focal plane, Free electrons, Grating, Image plane, Imaging, Incident light, Initial state, Initial states, Interface, Interference pattern, Intermediate state, Intermediate states, Kspp, Kubo, Laser, Lett, Light line, Localized, Mesa structures, Metal surface, Microscopy, Momentum, Momentum distributions, Momentum imaging, Momentum microscope, Momentum mismatch, Multiphoton, Nano lett, Nanometre, Nanostructured metal, Nonlinear, Ogawa, Optical excitation, Particular interest, Pathway, Peem, Peem image, Petek, Photoelectron, Photoelectron energies, Photoelectron energy, Photoemission, Photoemission signal, Photoemitted, Photoemitted electrons, Photon, Photon energy, Phys, Plasmon, Plasmonic, Plasmonic modes, Probe pulse, Probe pulses, Propagates, Propagating, Pulse, Quantum interference, Resonant, Semiconductor, Semiconductor surfaces, Single crystal surfaces, Single particle excitations, Solar energy conversion, Solid surfaces, Solid surfaces figure, Spatial distribution, Spatial resolution, Spectroscopic, Spectroscopy, Such structures, Surf, Surface states, Time resolution, Ultrafast, Ultrafast multiphoton photoemission, Ultrafast multiphoton photoemission microscopy, Unoccupied, Unoccupied bands, Unoccupied state, Unoccupied states, Wave front, Work function.
Abstract
We review the applications of photoemission electron microscopy for real and reciprocal space multidimensional microscopy and spectroscopy of the collective and single particle excitations at clean and adsorbate covered surfaces. Specific examples are given for ultrafast imaging of surface plasmon modes of nanostructured silver surfaces, and clean and adsorbate modified noble metal single crystal surfaces. The examples given illustrate how ultrafast multidimensional multiphoton photoelectron techniques can probe interfacial charge transfer dynamics.
Url:
DOI: 10.1039/9781849735445-00225
Affiliations:
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<term>Alkali atoms</term>
<term>American chemical society</term>
<term>Bulk states</term>
<term>Bulk transition</term>
<term>Chem</term>
<term>Clean surface</term>
<term>Coherent</term>
<term>Coherent polarization</term>
<term>Collective response</term>
<term>Copyright</term>
<term>Dephasing</term>
<term>Dielectric</term>
<term>Dielectric properties</term>
<term>Dispersion</term>
<term>Dispersion function</term>
<term>Dynamics</term>
<term>Echenique</term>
<term>Eld</term>
<term>Electromagnetic</term>
<term>Electronic states</term>
<term>Electronic structure</term>
<term>Electronic system</term>
<term>Excitation</term>
<term>Excitation light</term>
<term>Excitation pulses</term>
<term>Fdtd simulations</term>
<term>Femtosecond</term>
<term>Figure chapter</term>
<term>Focal plane</term>
<term>Free electrons</term>
<term>Grating</term>
<term>Image plane</term>
<term>Imaging</term>
<term>Incident light</term>
<term>Initial state</term>
<term>Initial states</term>
<term>Interface</term>
<term>Interference pattern</term>
<term>Intermediate state</term>
<term>Intermediate states</term>
<term>Kspp</term>
<term>Kubo</term>
<term>Laser</term>
<term>Lett</term>
<term>Light line</term>
<term>Localized</term>
<term>Mesa structures</term>
<term>Metal surface</term>
<term>Microscopy</term>
<term>Momentum</term>
<term>Momentum distributions</term>
<term>Momentum imaging</term>
<term>Momentum microscope</term>
<term>Momentum mismatch</term>
<term>Multiphoton</term>
<term>Nano lett</term>
<term>Nanometre</term>
<term>Nanostructured metal</term>
<term>Nonlinear</term>
<term>Ogawa</term>
<term>Optical excitation</term>
<term>Particular interest</term>
<term>Pathway</term>
<term>Peem</term>
<term>Peem image</term>
<term>Petek</term>
<term>Photoelectron</term>
<term>Photoelectron energies</term>
<term>Photoelectron energy</term>
<term>Photoemission</term>
<term>Photoemission signal</term>
<term>Photoemitted</term>
<term>Photoemitted electrons</term>
<term>Photon</term>
<term>Photon energy</term>
<term>Phys</term>
<term>Plasmon</term>
<term>Plasmonic</term>
<term>Plasmonic modes</term>
<term>Probe pulse</term>
<term>Probe pulses</term>
<term>Propagates</term>
<term>Propagating</term>
<term>Pulse</term>
<term>Quantum interference</term>
<term>Resonant</term>
<term>Semiconductor</term>
<term>Semiconductor surfaces</term>
<term>Single crystal surfaces</term>
<term>Single particle excitations</term>
<term>Solar energy conversion</term>
<term>Solid surfaces</term>
<term>Solid surfaces figure</term>
<term>Spatial distribution</term>
<term>Spatial resolution</term>
<term>Spectroscopic</term>
<term>Spectroscopy</term>
<term>Such structures</term>
<term>Surf</term>
<term>Surface states</term>
<term>Time resolution</term>
<term>Ultrafast</term>
<term>Ultrafast multiphoton photoemission</term>
<term>Ultrafast multiphoton photoemission microscopy</term>
<term>Unoccupied</term>
<term>Unoccupied bands</term>
<term>Unoccupied state</term>
<term>Unoccupied states</term>
<term>Wave front</term>
<term>Work function</term>
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<term>Alkali atoms</term>
<term>American chemical society</term>
<term>Bulk states</term>
<term>Bulk transition</term>
<term>Chem</term>
<term>Clean surface</term>
<term>Coherent</term>
<term>Coherent polarization</term>
<term>Collective response</term>
<term>Copyright</term>
<term>Dephasing</term>
<term>Dielectric</term>
<term>Dielectric properties</term>
<term>Dispersion</term>
<term>Dispersion function</term>
<term>Dynamics</term>
<term>Echenique</term>
<term>Eld</term>
<term>Electromagnetic</term>
<term>Electronic states</term>
<term>Electronic structure</term>
<term>Electronic system</term>
<term>Excitation</term>
<term>Excitation light</term>
<term>Excitation pulses</term>
<term>Fdtd simulations</term>
<term>Femtosecond</term>
<term>Figure chapter</term>
<term>Focal plane</term>
<term>Free electrons</term>
<term>Grating</term>
<term>Image plane</term>
<term>Imaging</term>
<term>Incident light</term>
<term>Initial state</term>
<term>Initial states</term>
<term>Interface</term>
<term>Interference pattern</term>
<term>Intermediate state</term>
<term>Intermediate states</term>
<term>Kspp</term>
<term>Kubo</term>
<term>Laser</term>
<term>Lett</term>
<term>Light line</term>
<term>Localized</term>
<term>Mesa structures</term>
<term>Metal surface</term>
<term>Microscopy</term>
<term>Momentum</term>
<term>Momentum distributions</term>
<term>Momentum imaging</term>
<term>Momentum microscope</term>
<term>Momentum mismatch</term>
<term>Multiphoton</term>
<term>Nano lett</term>
<term>Nanometre</term>
<term>Nanostructured metal</term>
<term>Nonlinear</term>
<term>Ogawa</term>
<term>Optical excitation</term>
<term>Particular interest</term>
<term>Pathway</term>
<term>Peem</term>
<term>Peem image</term>
<term>Petek</term>
<term>Photoelectron</term>
<term>Photoelectron energies</term>
<term>Photoelectron energy</term>
<term>Photoemission</term>
<term>Photoemission signal</term>
<term>Photoemitted</term>
<term>Photoemitted electrons</term>
<term>Photon</term>
<term>Photon energy</term>
<term>Phys</term>
<term>Plasmon</term>
<term>Plasmonic</term>
<term>Plasmonic modes</term>
<term>Probe pulse</term>
<term>Probe pulses</term>
<term>Propagates</term>
<term>Propagating</term>
<term>Pulse</term>
<term>Quantum interference</term>
<term>Resonant</term>
<term>Semiconductor</term>
<term>Semiconductor surfaces</term>
<term>Single crystal surfaces</term>
<term>Single particle excitations</term>
<term>Solar energy conversion</term>
<term>Solid surfaces</term>
<term>Solid surfaces figure</term>
<term>Spatial distribution</term>
<term>Spatial resolution</term>
<term>Spectroscopic</term>
<term>Spectroscopy</term>
<term>Such structures</term>
<term>Surf</term>
<term>Surface states</term>
<term>Time resolution</term>
<term>Ultrafast</term>
<term>Ultrafast multiphoton photoemission</term>
<term>Ultrafast multiphoton photoemission microscopy</term>
<term>Unoccupied</term>
<term>Unoccupied bands</term>
<term>Unoccupied state</term>
<term>Unoccupied states</term>
<term>Wave front</term>
<term>Work function</term>
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<front><div type="abstract">We review the applications of photoemission electron microscopy for real and reciprocal space multidimensional microscopy and spectroscopy of the collective and single particle excitations at clean and adsorbate covered surfaces. Specific examples are given for ultrafast imaging of surface plasmon modes of nanostructured silver surfaces, and clean and adsorbate modified noble metal single crystal surfaces. The examples given illustrate how ultrafast multidimensional multiphoton photoelectron techniques can probe interfacial charge transfer dynamics.</div>
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<name sortKey="Kubo, A" sort="Kubo, A" uniqKey="Kubo A" first="A." last="Kubo">A. Kubo</name>
<name sortKey="Petek, H" sort="Petek, H" uniqKey="Petek H" first="H." last="Petek">H. Petek</name>
<name sortKey="Petek, H" sort="Petek, H" uniqKey="Petek H" first="H." last="Petek">H. Petek</name>
<name sortKey="Tusche, C" sort="Tusche, C" uniqKey="Tusche C" first="C." last="Tusche">C. Tusche</name>
<name sortKey="Tusche, C" sort="Tusche, C" uniqKey="Tusche C" first="C." last="Tusche">C. Tusche</name>
<name sortKey="Unal, A A" sort="Unal, A A" uniqKey="Unal A" first="A. A." last="Ünal">A. A. Ünal</name>
<name sortKey="Unal, A A" sort="Unal, A A" uniqKey="Unal A" first="A. A." last="Ünal">A. A. Ünal</name>
<name sortKey="Wang, L" sort="Wang, L" uniqKey="Wang L" first="L." last="Wang">L. Wang</name>
<name sortKey="Wang, L" sort="Wang, L" uniqKey="Wang L" first="L." last="Wang">L. Wang</name>
<name sortKey="Winkelmann, A" sort="Winkelmann, A" uniqKey="Winkelmann A" first="A." last="Winkelmann">A. Winkelmann</name>
</country>
</tree>
</affiliations>
</record>
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