Emissive properties of xenon ions from a laser-produced plasma in the 100–140 Å spectral range: Atomic-physics analysis of the experimental data

Gilleron, F.; Poirier, Michel; Błeński, T.; Schmidt, M.; Ceccotti, T.

doi:10.1063/1.1587264

Cited by 55 publications

(84 citation statements)

References 37 publications

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“…The interaction of configurations sharpens the 4d-(4f/4p) group of resonant lines. It has been shown that the interaction of configurations has a strong influence on satellite lines and reduces the width of the main 4d-4f/4p-4d broad satellite structure [42,51,53]. Therefore, interaction of all configurations has systematically been included in our HULLAC calculations leading to energy matrices including more than 3000 levels.…”

Section: Comparison Of Experimental Data Of Xe Laser-produced Plasma mentioning

confidence: 99%

“…The configurations are selected on an energy basis [42]. For Xe 10+ whose maximum concentration is obtained around T e = 30 eV [43,51,52], all configurations with energy below 300 eV (= 10 × T e ) are kept. Above this energy, the configurations are supposed to be very little populated at moderate densities.…”

Section: Comparison Of Experimental Data Of Xe Laser-produced Plasma mentioning

confidence: 99%

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Characterization and optimization of the laser-produced plasma EUV source at 13.5 nm based on a double-stream Xe/He gas puff target

et al. 2010

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The paper describes a debris-free, efficient laserproduced plasma source emitting EUV radiation. The source is based on a double-stream Xe/He gas-puff. Its properties and spectroscopic signatures are characterized and discussed. The spatio-spectral features of the EUV emission are investigated. We show a large body of results related to the intensity and brightness of the EUV emission, its spatial, temporal, and angular behavior and the effect of the repetition rate as well. A conversion efficiency of laser energy into EUV in-band energy at 13.5 nm of 0.42% has been gained. The electron temperature and electron density of the source were estimated by means of a novel method using the FLY code. The experimental data and the Hullac code calculations are compared and discussed. The source is well suited for EUV metrology purposes. The potential of the source for R. Rakowski ( ) ·

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Section: Comparison Of Experimental Data Of Xe Laser-produced Plasma mentioning

confidence: 99%

Section: Comparison Of Experimental Data Of Xe Laser-produced Plasma mentioning

confidence: 99%

Characterization and optimization of the laser-produced plasma EUV source at 13.5 nm based on a double-stream Xe/He gas puff target

et al. 2010

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“…L'élément le plus utilisé dans tout type de source est aujourd'hui le xénon. Ses caractéristiques de gaz rare en font un candidat idéal pour une source propre et son spectre présente un ensemble de transitions 4p-4d et 4d-4f non résolues [9] (UTA [10]) centrées autour de 11 nm. Cependant, son CE autour de 1% laisse supposer qu'il pourraêtre difficilement utilisé dans le futur pour des machines industrielles.…”

Section: Sources Euv : L'offreunclassified

Quelle source pour la lithographie dans l'EUV ?

Ceccotti¹

2005

J. Phys. IV France

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Résumé. L'impressionnanteévolution des performances des circuits intégrés (CI) ces trente dernières années, répondà la désormais célèbre loi de Moore. Selon la prédiction faite en 1975 par le co-fondateur d'Intel Gordon Moore et qui n'a jamaisété contredite, le nombre de transistors dans un CI allait doubler tous les 18 mois. De simple intuition, la loi de Moore est devenue un impératifà respecter pour l'industrie des CI et des semi-conducteurs en général. La continuité dans les annéesà venir d'une telle progression technologique permettraità ce secteuréconomique de garder, voire augmenter, toute son importance actuelle.Augmenter le nombre des transistors dans les CI signifie principalement réduire leur taille caractéristique de gravure et par conséquent la longueur d'onde utilisée. Depuis 2000, la lithographie dans l'extrême ultraviolet (EUVL)à 13.5 nm est considérée comme la plus prometteuse parmi les technologies appeléesà remplacer la lithographie actuelle qui utilise du rayonnement laserà 193 nm comme source de lumière.La réalisation d'une machine lithographique industrielle utilisant du rayonnement EUV nécessite la résolution de nombreux problèmes technologiques qui font, depuis des années, l'objet de plusieurs programmes de recherche dans le monde. Une attention toute particulière est portéeà la source de rayonnement EUV car ses caractéristiques, notamment de puissance et de propreté, vont décider du succès ou pas de l'EUVL.Le cahier des charges d'une source EUV, les différents approches pour y répondre ainsi que leurs limites seront présentés ainsi qu'unétat de l'art des performances des sources actuelles.

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“…We propose here a method to deal with such higher terms using detailed codes. This will allow us to check in X-ray spectra the influence of configuration interaction (CI), keeping in mind that CI was shown to be essential in EUV xenon emission analysis [11].…”

Section: Introductionmentioning

confidence: 99%

Theoretical interpretation for 2p−ndabsorption spectra of iron, nickel, and copper in X-ray range measured at the LULI2000 facility

Poirier

Arnault

Bastiani-Ceccotti

et al. 2013

EPJ Web of Conferences

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Abstract. The 2p − nd absorption structures in medium Z elements present a valuable benchmark for atomic models since they exhibit a complex dependence on temperature and density. For these transitions lying in the X-ray range, one observes a competition between the spin-orbit splitting and the broadening associated to the excitation of complex structures. Detailed opacity codes based on the HULLAC or FAC suites agree with the statistical code SCO; but in iron computations predict higher peak absorption than measured. An addition procedure on opacities calculated with detailed codes is proposed and successfully tested.

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Emissive properties of xenon ions from a laser-produced plasma in the 100–140 Å spectral range: Atomic-physics analysis of the experimental data

Cited by 55 publications

References 37 publications

Characterization and optimization of the laser-produced plasma EUV source at 13.5 nm based on a double-stream Xe/He gas puff target

Characterization and optimization of the laser-produced plasma EUV source at 13.5 nm based on a double-stream Xe/He gas puff target

Quelle source pour la lithographie dans l'EUV ?

Theoretical interpretation for 2p−ndabsorption spectra of iron, nickel, and copper in X-ray range measured at the LULI2000 facility

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