J. Langner scite author profile

J. Langner

5Publications

73Citation Statements Received

63Citation Statements Given

How they've been cited

129

How they cite others

Affiliations

National Centre for Nuclear Research, Palo Alto Veterans Institute for Research

Publications

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High quality superconducting niobium films produced by an ultra-high vacuum cathodic arc

Russo

Catàni

Cianchi

et al. 2005

Supercond. Sci. Technol.

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The vacuum arc is a well-known technique to produce coating with enhanced adhesion and film density. Many cathodic arc deposition systems are actually in use in industry and research. They all work under (high) vacuum conditions in which water vapor pressure is an important source of film contamination, especially in the pulsed arc mode of operation. Here we present a Cathodic Arc system working under Ultra High Vacuum conditions (UHVCA).UHVCA has been used to produce ultra-pure niobium films with excellent structural and electrical properties at a deposition temperature lower than 100 o C. The UHVCA technique therefore opens new perspectives for all applications requiring ultra-pure films or, as in the case of Plasma Immersion Ion Implantation, ultra-pure plasmas.

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UHV arc for high quality film deposition

Russo

Cianchi²,

Akhmadeev

et al. 2006

Surface and Coatings Technology

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The vacuum arc is a well-known technique for producing coatings with enhanced adhesion and film density. Many cathodic arc deposition systems are actually in use in industry and research. They all work under (high) vacuum conditions in which water vapour pressure is an important source of film contamination, especially in the pulsed arc mode of operation. Here we present a cathodic arc system working under ultra-high vacuum conditions (UHVCA). We have used for arc ignition a Nd-YAG pulsed laser focused on the cathode surface, which provides a reliable system and allows eliminating all possible sources of contaminants. We have proven that the arc technique produces bulk-like films suitable for superconducting applications. UHVCA has been used to produce ultra-pure niobium films with excellent structural and electrical properties at a deposition temperature lower than 100oC. The UHVCA technique therefore opens up new perspectives for all applications requiring pure films and low deposition temperatures.

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Surface modification of constructional steels by irradiation with high intensity pulsed nitrogen plasma beams

Langner

Piekoşzewski

Werner

et al. 2000

Surface and Coatings Technology

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Nb-Pb Superconducting RF Gun

Sekutowicz¹,

Iversen²,

Kreps³

et al. 2006

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We report on the status of an electron RF-gun made of two superconductors: niobium and lead. The presented design combines the advantages of the RF performance of bulk niobium superconducting cavities and the reasonably high quantum efficiency of lead, as compared to other superconducting metals. The concept, mentioned in a previous paper, follows the attractive approach of all niobium superconducting RF-gun as it has been proposed by the BNL group. Measured values of quantum efficiency for lead at various photon energies, analysis of recombination time of photon-broken Cooper pairs for lead and niobium, and preliminary cold test results are discussed in this paper.

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High intensity pulsed ion beams in material processing: Equipment and applications

Piekoşzewski

Langner

1991

Nuclear Instruments and Methods in Physics Research Section B:

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J. Langner

High quality superconducting niobium films produced by an ultra-high vacuum cathodic arc

UHV arc for high quality film deposition

Surface modification of constructional steels by irradiation with high intensity pulsed nitrogen plasma beams

Nb-Pb Superconducting RF Gun

High intensity pulsed ion beams in material processing: Equipment and applications

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