C. P. Schulz scite author profile

Intense multiphoton electron emission is observed from sharp (approximately 20 nm radius) metallic tips illuminated with weak 100-pJ, 7-fs light pulses. Local field enhancement, evidenced by concurrent nonlinear light generation, confines the emission to the tip apex. Electrons are emitted from a highly excited nonequilibrium carrier distribution, resulting in a marked change of the absolute electron flux and its dependence on optical power with the tip bias voltage. The strong optical nonlinearity of the electron emission allows us to image the local optical field near a metallic nanostructure with a spatial resolution of a few tens of nanometers in a novel tip-enhanced electron emission microscope.

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Photoionization of Na(NH3)nand Na(
Hertel
¹
,
Hüglin
²
,
Nitsch
³

et al. 1991
Phys. Rev. Lett.

234

200

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Free Sodium-Water Clusters

et al. 1986

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Neutral sodium-water clusters are formed in a "pickup" source, injection of a beam of Na atoms into the expansion zone of a pulsed nozzle-jet beam of water vapor seeded into an argon carrier gas. They are detected by near-uv one-photon ionization with a pulsed laser and time-of-flight mass spectroscopy. NaCHaO^-cluster-ion signals up to n = l2 are seen, « = 4 showing a very pronounced abundance. The ionization potential of NaOHa is determined to be 4.379 ±0.002 eV.

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Free sodium-water clusters: photoionisation studies in a pulsed molecular beam source

Schulz

Haugstätter

Tittes

et al. 1988

Z Phys D - Atoms, Molecules and Clusters

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Electronically excited states of sodium–water clusters

Schulz

Bobbert

Shimosato

et al. 2003

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The lowest electronically excited state of small Na(H 2 O) n clusters have been investigated experimentally and theoretically. The excitation energy as determined by the depletion spectroscopy method drops from 16950 cm −1 for the sodium atom down to 9670 cm −1 when only three water molecules are attached to the Na atom. For larger clusters the absorption band shifts back towards higher energies and reaches 10880 cm −1 for n = 12. The experimental data are compared to quantum chemical calculations at the MP2 and MRSDCI levels. We found that the observed size-dependence of the transition energy is well reproduced by the interior structure where the sodium atom is surrounded by water molecules. The analysis of the radial charge distribution of the unpaired electron in these interior structures gives a new insight into the formation of the "solvated" electron.

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C. P. Schulz

Localized Multiphoton Emission of Femtosecond Electron Pulses from Metal Nanotips

Photoionization of Na(NH3)nand Na(
Hertel
¹
,
Hüglin
²
,
Nitsch
³

et al. 1991
Phys. Rev. Lett.

Free Sodium-Water Clusters

Free sodium-water clusters: photoionisation studies in a pulsed molecular beam source

Electronically excited states of sodium–water clusters

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Resources

About

C. P. Schulz

Localized Multiphoton Emission of Femtosecond Electron Pulses from Metal Nanotips

Photoionization of Na(NH3)nand Na(Hertel1, Hüglin2, Nitsch3 et al. 1991Phys. Rev. Lett.

Free Sodium-Water Clusters

Free sodium-water clusters: photoionisation studies in a pulsed molecular beam source

Electronically excited states of sodium–water clusters

Contact Info

Product

Resources

About

Photoionization of Na(NH3)nand Na(
Hertel
¹
,
Hüglin
²
,
Nitsch
³

et al. 1991
Phys. Rev. Lett.