Your search keyword '"Prince KC"' showing total 28 results

1. Control of H2 Dissociative Ionization in the Nonlinear Regime Using Vacuum Ultraviolet Free-Electron Laser Pulses

Author

Holzmeier, F, Bello, RY, Hervé, M, Achner, A, Baumann, TM, Meyer, M, Finetti, P, Di Fraia, M, Gauthier, D, Roussel, E, Plekan, O, Richter, R, Prince, KC, Callegari, C, Bachau, H, Palacios, A, Martín, F, and Dowek, D

Subjects

Mathematical Sciences, Physical Sciences, Engineering, General Physics

Abstract

The role of the nuclear degrees of freedom in nonlinear two-photon single ionization of H_{2} molecules interacting with short and intense vacuum ultraviolet pulses is investigated, both experimentally and theoretically, by selecting single resonant vibronic intermediate neutral states. This high selectivity relies on the narrow bandwidth and tunability of the pulses generated at the FERMI free-electron laser. A sustained enhancement of dissociative ionization, which even exceeds nondissociative ionization, is observed and controlled as one selects progressively higher vibronic states. With the help of ab initio calculations for increasing pulse durations, the photoelectron and ion energy spectra obtained with velocity map imaging allow us to identify new photoionization pathways. With pulses of the order of 100 fs, the experiment probes a timescale that lies between that of ultrafast dynamical processes and that of steady state excitations.

Published

2018

2. Femtosecond Polarization Shaping of Free-Electron Laser Pulses.

Author

Perosa G, Wätzel J, Garzella D, Allaria E, Bonanomi M, Danailov MB, Brynes A, Callegari C, De Ninno G, Demidovich A, Di Fraia M, Di Mitri S, Giannessi L, Manfredda M, Novinec L, Pal N, Penco G, Plekan O, Prince KC, Simoncig A, Spampinati S, Spezzani C, Zangrando M, Berakdar J, Feifel R, Squibb RJ, Coffee R, Hemsing E, Roussel E, Sansone G, McNeil BWJ, and Ribič PR

Abstract

We demonstrate the generation of extreme-ultraviolet (XUV) free-electron laser (FEL) pulses with time-dependent polarization. To achieve polarization modulation on a femtosecond timescale, we combine two mutually delayed counterrotating circularly polarized subpulses from two cross-polarized undulators. The polarization profile of the pulses is probed by angle-resolved photoemission and above-threshold ionization of helium; the results agree with solutions of the time-dependent Schrödinger equation. The stability limit of the scheme is mainly set by electron-beam energy fluctuations, however, at a level that will not compromise experiments in the XUV. Our results demonstrate the potential to improve the resolution and element selectivity of methods based on polarization shaping and may lead to the development of new coherent control schemes for probing and manipulating core electrons in matter.

Published

2023

3. Enhancement of Above Threshold Ionization in Resonantly Excited Helium Nanodroplets.

Author

Michiels R, Abu-Samha M, Madsen LB, Binz M, Bangert U, Bruder L, Duim R, Wituschek A, LaForge AC, Squibb RJ, Feifel R, Callegari C, Di Fraia M, Danailov M, Manfredda M, Plekan O, Prince KC, Rebernik P, Zangrando M, Stienkemeier F, and Mudrich M

Abstract

Clusters and nanodroplets hold the promise of enhancing high-order nonlinear optical effects due to their high local density. However, only moderate enhancement has been demonstrated to date. Here, we report the observation of energetic electrons generated by above-threshold ionization (ATI) of helium (He) nanodroplets which are resonantly excited by ultrashort extreme ultraviolet (XUV) free-electron laser pulses and subsequently ionized by near-infrared (NIR) or near-ultraviolet (UV) pulses. The electron emission due to high-order ATI is enhanced by several orders of magnitude compared with He atoms. The crucial dependence of the ATI intensities with the number of excitations in the droplets suggests a local collective enhancement effect.

Published

2021

4. Complete Characterization of Phase and Amplitude of Bichromatic Extreme Ultraviolet Light.

Author

Di Fraia M, Plekan O, Callegari C, Prince KC, Giannessi L, Allaria E, Badano L, De Ninno G, Trovò M, Diviacco B, Gauthier D, Mirian N, Penco G, Ribič PR, Spampinati S, Spezzani C, Gaio G, Orimo Y, Tugs O, Sato T, Ishikawa KL, Carpeggiani PA, Csizmadia T, Füle M, Sansone G, Kumar Maroju P, D'Elia A, Mazza T, Meyer M, Gryzlova EV, Grum-Grzhimailo AN, You D, and Ueda K

Abstract

Intense, mutually coherent beams of multiharmonic extreme ultraviolet light can now be created using seeded free-electron lasers, and the phase difference between harmonics can be tuned with attosecond accuracy. However, the absolute value of the phase is generally not determined. We present a method for determining precisely the absolute phase relationship of a fundamental wavelength and its second harmonic, as well as the amplitude ratio. Only a few easily calculated theoretical parameters are required in addition to the experimental data.

Published

2019

5. Molecular Auger Interferometry.

Author

Khokhlova MA, Cooper B, Ueda K, Prince KC, Kolorenč P, Ivanov MY, and Averbukh V

Abstract

We introduce and present a theory of interferometric measurement of a normal Auger decay lifetime in molecules. Molecular Auger interferometry is based on the coherent phase control of Auger dynamics in a two-color (ω/2ω) laser field. We show that, in contrast to atoms, in oriented molecules of certain point groups the relative ω/2ω phase modulates the total ionization yield. A simple analytical formula is derived for the extraction of the lifetimes of Auger-active states from a molecular Auger interferogram, circumventing the need in either high-resolution or attosecond spectroscopy. We demonstrate the principle of the interferometric Auger lifetime measurement using inner-valence decay in CH_{3}F.

Published

2019

6. Real-Time Dynamics of the Formation of Hydrated Electrons upon Irradiation of Water Clusters with Extreme Ultraviolet Light.

Author

LaForge AC, Michiels R, Bohlen M, Callegari C, Clark A, von Conta A, Coreno M, Di Fraia M, Drabbels M, Huppert M, Finetti P, Ma J, Mudrich M, Oliver V, Plekan O, Prince KC, Shcherbinin M, Stranges S, Svoboda V, Wörner HJ, and Stienkemeier F

Abstract

Free electrons in a polar liquid can form a bound state via interaction with the molecular environment. This so-called hydrated electron state in water is of fundamental importance, e.g., in cellular biology or radiation chemistry. Hydrated electrons are highly reactive radicals that can either directly interact with DNA or enzymes, or form highly excited hydrogen (H^{*}) after being captured by protons. Here, we investigate the formation of the hydrated electron in real-time employing extreme ultraviolet femtosecond pulses from a free electron laser, in this way observing the initial steps of the hydration process. Using time-resolved photoelectron spectroscopy we find formation timescales in the low picosecond range and resolve the prominent dynamics of forming excited hydrogen states.

Published

2019

7. Three-Dimensional Shapes of Spinning Helium Nanodroplets.

Author

Langbehn B, Sander K, Ovcharenko Y, Peltz C, Clark A, Coreno M, Cucini R, Drabbels M, Finetti P, Di Fraia M, Giannessi L, Grazioli C, Iablonskyi D, LaForge AC, Nishiyama T, Oliver Álvarez de Lara V, Piseri P, Plekan O, Ueda K, Zimmermann J, Prince KC, Stienkemeier F, Callegari C, Fennel T, Rupp D, and Möller T

Abstract

A significant fraction of superfluid helium nanodroplets produced in a free-jet expansion has been observed to gain high angular momentum resulting in large centrifugal deformation. We measured single-shot diffraction patterns of individual rotating helium nanodroplets up to large scattering angles using intense extreme ultraviolet light pulses from the FERMI free-electron laser. Distinct asymmetric features in the wide-angle diffraction patterns enable the unique and systematic identification of the three-dimensional droplet shapes. The analysis of a large data set allows us to follow the evolution from axisymmetric oblate to triaxial prolate and two-lobed droplets. We find that the shapes of spinning superfluid helium droplets exhibit the same stages as classical rotating droplets while the previously reported metastable, oblate shapes of quantum droplets are not observed. Our three-dimensional analysis represents a valuable landmark for clarifying the interrelation between morphology and superfluidity on the nanometer scale.

Published

2018

8. Observation and Control of Laser-Enabled Auger Decay.

Author

Iablonskyi D, Ueda K, Ishikawa KL, Kheifets AS, Carpeggiani P, Reduzzi M, Ahmadi H, Comby A, Sansone G, Csizmadia T, Kuehn S, Ovcharenko E, Mazza T, Meyer M, Fischer A, Callegari C, Plekan O, Finetti P, Allaria E, Ferrari E, Roussel E, Gauthier D, Giannessi L, and Prince KC

Abstract

Single-photon laser-enabled Auger decay (spLEAD) is predicted theoretically [B. Cooper and V. Averbukh, Phys. Rev. Lett. 111, 083004 (2013)PRLTAO0031-900710.1103/PhysRevLett.111.083004] and here we report its first experimental observation in neon. Using coherent, bichromatic free-electron laser pulses, we detect the process and coherently control the angular distribution of the emitted electrons by varying the phase difference between the two laser fields. Since spLEAD is highly sensitive to electron correlation, this is a promising method for probing both correlation and ultrafast hole migration in more complex systems.

Published

2017

9. Time-Resolved Measurement of Interatomic Coulombic Decay Induced by Two-Photon Double Excitation of Ne_{2}.

Author

Takanashi T, Golubev NV, Callegari C, Fukuzawa H, Motomura K, Iablonskyi D, Kumagai Y, Mondal S, Tachibana T, Nagaya K, Nishiyama T, Matsunami K, Johnsson P, Piseri P, Sansone G, Dubrouil A, Reduzzi M, Carpeggiani P, Vozzi C, Devetta M, Negro M, Faccialà D, Calegari F, Trabattoni A, Castrovilli MC, Ovcharenko Y, Mudrich M, Stienkemeier F, Coreno M, Alagia M, Schütte B, Berrah N, Plekan O, Finetti P, Spezzani C, Ferrari E, Allaria E, Penco G, Serpico C, De Ninno G, Diviacco B, Di Mitri S, Giannessi L, Jabbari G, Prince KC, Cederbaum LS, Demekhin PV, Kuleff AI, and Ueda K

Abstract

The hitherto unexplored two-photon doubly excited states [Ne^{*}(2p^{-1}3s)]_{2} were experimentally identified using the seeded, fully coherent, intense extreme ultraviolet free-electron laser FERMI. These states undergo ultrafast interatomic Coulombic decay (ICD), which predominantly produces singly ionized dimers. In order to obtain the rate of ICD, the resulting yield of Ne_{2}^{+} ions was recorded as a function of delay between the extreme ultraviolet pump and UV probe laser pulses. The extracted lifetimes of the long-lived doubly excited states, 390(-130/+450)  fs, and of the short-lived ones, less than 150 fs, are in good agreement with ab initio quantum mechanical calculations.

Published

2017

10. Circular Dichroism in Multiphoton Ionization of Resonantly Excited He^{+} Ions.

Author

Ilchen M, Douguet N, Mazza T, Rafipoor AJ, Callegari C, Finetti P, Plekan O, Prince KC, Demidovich A, Grazioli C, Avaldi L, Bolognesi P, Coreno M, Di Fraia M, Devetta M, Ovcharenko Y, Düsterer S, Ueda K, Bartschat K, Grum-Grzhimailo AN, Bozhevolnov AV, Kazansky AK, Kabachnik NM, and Meyer M

Abstract

Intense, circularly polarized extreme-ultraviolet and near-infrared (NIR) laser pulses are combined to double ionize atomic helium via the oriented intermediate He^{+}(3p) resonance state. Applying angle-resolved electron spectroscopy, we find a large photon helicity dependence of the spectrum and the angular distribution of the electrons ejected from the resonance by NIR multiphoton absorption. The measured circular dichroism is unexpectedly found to vary strongly as a function of the NIR intensity. The experimental data are well described by theoretical modeling and possible mechanisms are discussed.

Published

2017

11. Slow Interatomic Coulombic Decay of Multiply Excited Neon Clusters.

Author

Iablonskyi D, Nagaya K, Fukuzawa H, Motomura K, Kumagai Y, Mondal S, Tachibana T, Takanashi T, Nishiyama T, Matsunami K, Johnsson P, Piseri P, Sansone G, Dubrouil A, Reduzzi M, Carpeggiani P, Vozzi C, Devetta M, Negro M, Calegari F, Trabattoni A, Castrovilli MC, Faccialà D, Ovcharenko Y, Möller T, Mudrich M, Stienkemeier F, Coreno M, Alagia M, Schütte B, Berrah N, Kuleff AI, Jabbari G, Callegari C, Plekan O, Finetti P, Spezzani C, Ferrari E, Allaria E, Penco G, Serpico C, De Ninno G, Nikolov I, Diviacco B, Di Mitri S, Giannessi L, Prince KC, and Ueda K

Abstract

Ne clusters (∼5000  atoms) were resonantly excited (2p→3s) by intense free electron laser (FEL) radiation at FERMI. Such multiply excited clusters can decay nonradiatively via energy exchange between at least two neighboring excited atoms. Benefiting from the precise tunability and narrow bandwidth of seeded FEL radiation, specific sites of the Ne clusters were probed. We found that the relaxation of cluster surface atoms proceeds via a sequence of interatomic or intermolecular Coulombic decay (ICD) processes while ICD of bulk atoms is additionally affected by the surrounding excited medium via inelastic electron scattering. For both cases, cluster excitations relax to atomic states prior to ICD, showing that this kind of ICD is rather slow (picosecond range). Controlling the average number of excitations per cluster via the FEL intensity allows a coarse tuning of the ICD rate.

Published

2016

12. Enhanced Ionization of Embedded Clusters by Electron-Transfer-Mediated Decay in Helium Nanodroplets.

Author

LaForge AC, Stumpf V, Gokhberg K, von Vangerow J, Stienkemeier F, Kryzhevoi NV, O'Keeffe P, Ciavardini A, Krishnan SR, Coreno M, Prince KC, Richter R, Moshammer R, Pfeifer T, Cederbaum LS, and Mudrich M

Abstract

We report the observation of electron-transfer-mediated decay (ETMD) involving magnesium (Mg) clusters embedded in helium (He) nanodroplets. ETMD is initiated by the ionization of He followed by removal of two electrons from the Mg clusters of which one is transferred to the He ion while the other electron is emitted into the continuum. The process is shown to be the dominant ionization mechanism for embedded clusters for photon energies above the ionization potential of He. For Mg clusters larger than five atoms we observe stable doubly ionized clusters. Thus, ETMD provides an efficient pathway to the formation of doubly ionized cold species in doped nanodroplets.

Published

2016

13. High resolution multiphoton spectroscopy by a tunable free-electron-laser light.

Author

Žitnik M, Mihelič A, Bučar K, Kavčič M, Rubensson JE, Svanquist M, Söderström J, Feifel R, Såthe C, Ovcharenko Y, Lyamayev V, Mazza T, Meyer M, Simon M, Journel L, Lüning J, Plekan O, Coreno M, Devetta M, Di Fraia M, Finetti P, Richter R, Grazioli C, Prince KC, and Callegari C

Abstract

Seeded free electron lasers theoretically have the intensity, tunability, and resolution required for multiphoton spectroscopy of atomic and molecular species. Using the seeded free electron laser FERMI and a novel detection scheme, we have revealed the two-photon excitation spectra of dipole-forbidden doubly excited states in helium. The spectral profiles of the lowest (-1,0)(+1) (1)S(e) and (0,1)(0) (1)D(e) resonances display energy shifts in the meV range that depend on the pulse intensity. The results are explained by an effective two-level model based on calculated Rabi frequencies and decay rates.

Published

2014

14. Novel collective autoionization process observed in electron spectra of He clusters.

Author

Ovcharenko Y, Lyamayev V, Katzy R, Devetta M, LaForge A, O'Keeffe P, Plekan O, Finetti P, Di Fraia M, Mudrich M, Krikunova M, Piseri P, Coreno M, Brauer NB, Mazza T, Stranges S, Grazioli C, Richter R, Prince KC, Drabbels M, Callegari C, Stienkemeier F, and Möller T

Subjects

Electrons, Ions chemistry, Photochemical Processes, Photoelectron Spectroscopy methods, Ultraviolet Rays, Helium chemistry, Models, Chemical, Nanoparticles chemistry

Abstract

The ionization dynamics of He nanodroplets irradiated with intense femtosecond extreme ultraviolet pulses of up to 1013  W/cm2 power density have been investigated by photoelectron spectroscopy. Helium droplets were resonantly excited to atomiclike 2p states with a photon energy of 21.4 eV, below the ionization potential (Ip), and directly into the ionization continuum with 42.8 eV photons. While electron emission following direct ionization above Ip is well explained within a model based on a sequence of direct electron emission events, the resonant excitation provides evidence of a new, collective ionization mechanism involving many excited atomiclike 2p states. With increasing power density the direct photoline due to an interatomic Coulombic decay disappears. It indicates that ionization occurs due to energy exchange between at least three excited atoms proceeding on a femtosecond time scale. In agreement with recent theoretical work the novel ionization process is very efficient and it is expected to be important for many other systems.

Published

2014

15. Dynamics of hollow atom formation in intense x-ray pulses probed by partial covariance mapping.

Author

Frasinski LJ, Zhaunerchyk V, Mucke M, Squibb RJ, Siano M, Eland JH, Linusson P, v d Meulen P, Salén P, Thomas RD, Larsson M, Foucar L, Ullrich J, Motomura K, Mondal S, Ueda K, Osipov T, Fang L, Murphy BF, Berrah N, Bostedt C, Bozek JD, Schorb S, Messerschmidt M, Glownia JM, Cryan JP, Coffee RN, Takahashi O, Wada S, Piancastelli MN, Richter R, Prince KC, and Feifel R

Abstract

When exposed to ultraintense x-radiation sources such as free electron lasers (FELs) the innermost electronic shell can efficiently be emptied, creating a transient hollow atom or molecule. Understanding the femtosecond dynamics of such systems is fundamental to achieving atomic resolution in flash diffraction imaging of noncrystallized complex biological samples. We demonstrate the capacity of a correlation method called "partial covariance mapping" to probe the electron dynamics of neon atoms exposed to intense 8 fs pulses of 1062 eV photons. A complete picture of ionization processes competing in hollow atom formation and decay is visualized with unprecedented ease and the map reveals hitherto unobserved nonlinear sequences of photoionization and Auger events. The technique is particularly well suited to the high counting rate inherent in FEL experiments.

Published

2013

16. Experimental verification of the chemical sensitivity of two-site double core-hole states formed by an x-ray free-electron laser.

Author

Salén P, van der Meulen P, Schmidt HT, Thomas RD, Larsson M, Feifel R, Piancastelli MN, Fang L, Murphy B, Osipov T, Berrah N, Kukk E, Ueda K, Bozek JD, Bostedt C, Wada S, Richter R, Feyer V, and Prince KC

Abstract

We have performed x-ray two-photon photoelectron spectroscopy using the Linac Coherent Light Source x-ray free-electron laser in order to study double core-hole (DCH) states of CO2, N2O, and N2. The experiment verifies the theory behind the chemical sensitivity of two-site DCH states by comparing a set of small molecules with respect to the energy shift of the two-site DCH state and by extracting the relevant parameters from this shift.

Published

2012

17. Resonant circular dichroism of chiral metal-organic complex.

Author

Catone D, Stener M, Decleva P, Contini G, Zema N, Prosperi T, Feyer V, Prince KC, and Turchini S

Abstract

A sizable enhancement of the circular dichroism in photoelectron spectroscopy has been measured and computed for the metal complex Δ-cobalt(III) tris-acetylacetonate highest occupied molecular orbital state in the region of the Co 3p→3d Fano resonance. In the resonance the dichroism reaches the maximum value of 5% and even changes its sign as compared to the direct photoionization channel. We ascribe this enhancement to electron correlation processes, namely, with the coupling between discrete excitations and the continuum, which is correctly described in the time dependent density functional theory (TDDFT) framework. These findings open new physical aspects of photoelectron circular dichroism that now can be interpreted not only via the simple direct ionization, but also through more complex electron correlation processes.

Published

2012

18. Excitation of 1S and 3S metastable helium atoms to doubly excited states.

Author

Alagia M, Coreno M, Farrokhpour H, Franceschi P, Mihelic A, Moise A, Omidyan R, Prince KC, Richter R, Söderström J, Stranges S, Tabrizchi M, and Zitnik M

Abstract

We present spectra of triplet and singlet metastable helium atoms resonantly photoexcited to doubly excited states. The first members of three dipole-allowed ;{1,3}P;{o} series have been observed and their relative photoionization cross sections determined, both in the triplet (from 1s2s ;{3}S;{e}) and singlet (from 1s2s ;{1}S;{e}) manifolds. The intensity ratios are drastically different with respect to transitions from the ground state. When radiation damping is included the results for the singlets are in agreement with theory, while for triplets spin-orbit interaction must also be taken into account.

Published

2009

19. Is CO carbon KVV Auger electron emission affected by the photoelectron?

Author

Prümper G, Fukuzawa H, Rolles D, Sakai K, Prince KC, Harries JR, Tamenori Y, Berrah N, and Ueda K

Abstract

Angular distributions (ADs) of O+ fragments from C 1s photoexcited CO detected in coincidence with carbon KVV Auger electrons emitted in the horizontal direction were measured at photon energies of 298, 305, 320, and 450 eV. At 450 eV, the ADs are polarization-independent and coincide with the molecular-frame Auger electron angular distribution. All measured ADs can be rationalized as a product of the same molecular-frame Auger electron angular distribution and the axial selectivity in the photoionization process. Thus the interaction between the photoelectron and the Auger electron for the normal Auger decay of CO can be neglected, and the two-step model is a good approximation.

Published

2008

20. Detection of the 1pe series of doubly excited helium states below N=2 via the stark effect.

Author

Prince KC, Coreno M, Richter R, de Simone M, Feyer V, Kivimäki A, Mihelic A, and Zitnik M

Abstract

The Stark effect on the doubly excited states of helium below the N=2 threshold has been studied by vacuum ultraviolet fluorescence yield spectroscopy. Two new series of states are observed at moderate fields (<10 kV/cm), and assigned to the previously unobserved even 1pe series, and a group of 1De series. The 1Se states are observed indirectly via their mixing with nearby 1 po states. The observations at moderate field contradict theoretical predictions that field strengths about an order of magnitude greater are necessary to observe the Stark effect on He doubly excited states at low quantum numbers.

Published

2006

21. Fluorescence emission of excited hydrogen atoms after core excitation of water vapor.

Author

Melero García E, Kivimäki A, Pettersson LG, Alvarez Ruiz J, Coreno M, de Simone M, Richter R, and Prince KC

Abstract

The Balmer emission from atomic hydrogen has been recorded across the resonances at the oxygen K edge of the water molecule using synchrotron radiation excitation. The emission is observed to be strongest at excitations to Rydberg resonances. The observations are interpreted using a qualitative model for the dynamics of the core-to-Rydberg excited molecule. The model links the quantum state of the core-excited water molecule via resonant Auger decay and subsequent dissociation to the state of the fluorescing hydrogen atom.

Published

2006

22. O 1s --> sigma* resonance in O2: inadequacy of only two exchange-split components.

Author

Piancastelli MN, Kivimäki A, Carravetta V, Cacelli I, Cimiraglia R, Angeli C, Wang H, Coreno M, de Simone M, Turri G, and Prince KC

Abstract

The O 1s-->sigma* transition below the O K-edge in O2 has been investigated by absorption, constant ionic state (CIS) experiments, and extensive configuration interaction calculations. CIS scans of the three lowest-lying final states reached in resonant Auger decay provide a wealth of information on energy range, symmetry, and spin multiplicity of the intermediate states with sigma* character. We conclude that the identification of only two exchange-split components is inadequate because a complex manifold of states with sigma* character exists with no unique energy difference between related states.

Published

2002

23. Distinct reaction mechanisms in the catalytic oxidation of carbon monoxide on Rh(110): scanning tunneling microscopy and density functional theory studies.

Author

Castellarin Cudia C, Hla SW, Comelli G, Sljivancanin Z, Hammer B, Baraldi A, Prince KC, and Rosei R

Abstract

By means of scanning tunneling microscopy measurements and density functional theory calculations, we identify the reaction mechanism for the oxidation of carbon monoxide to carbon dioxide on the Rh(110) surface at 160 K, which appears to be completely different than the one active at room temperature. The reasons for these different behaviors are determined. Our results demonstrate that even for a very simple catalytic reaction, the microscopic mechanism can dramatically change with temperature, following pathways that differ for nucleation sites and surface propagation and involve different surface moieties.

Published

2001

24. Observation and characterization of the fluorescence decay of the 2s2p(6)np 1P(o) excited states of Ne

Author

Lablanquie P, Penent F, Hall RI, Eland JH, Bolognesi P, Cooper D, King GC, Avaldi L, Camilloni R, Stranges S, Coreno M, Prince KC, Muehleisen A, and &Zbreve;itnik M

Abstract

Fluorescence decay of the 2s2p(6)np (1)P(o) excited states of neon has been observed directly for the first time. This process has also been observed indirectly by threshold photoelectron spectroscopy and in electron/photon coincidences. The measurements have allowed this weak decay channel to be characterized and branching ratios derived. The fluorescence excitation spectrum is well described by a simple Rydberg model that highlights the interplay and competition between the decay channels of autoionization and fluorescence.

Published

2000

25. Interference Effects in the Auger Decay of the Resonantly Excited 2p3/2-13d State of Argon.

Author

Camilloni R, Zitnik M, Comicioli C, Prince KC, Zacchigna M, Crotti C, Ottaviani C, Quaresima C, Perfetti P, and Stefani G

Published

1996

26. Lipowsky et al. reply.

Author

Lipowsky R, Breuer U, Prince KC, and Bonzel HP

Published

1990

27. Anisotropy of the order-disorder phase transition on the Pb(110) surface.

Author

Prince KC, Breuer U, and Bonzel HP

Published

1988

28. Multicomponent order parameter for surface melting.

Author

Lipowsky R, Breuer U, Prince KC, and Bonzel HP

Published

1989