SUPERCONDUCTING RESONANCE CAVITY HAVING LASER WELD SEAM AND FORMATION METHOD OF THE SAME

To improve a layout and manufacturing method of a superconducting wireless frequency cell.SOLUTION: A superconducting wireless frequency cell includes: a main body defining a hollow cavity having first and second opposite end parts; an axis extending between a first drawing and a second drawing; and...

Ausführliche Beschreibung

Gespeichert in:
Bibliographische Detailangaben
Hauptverfasser: ALAN HEDGES, KYLE BRANIGAN
Format: Patent
Sprache:eng ; jpn
Schlagworte:
Online-Zugang:Volltext bestellen
Tags: Tag hinzufügen
Keine Tags, Fügen Sie den ersten Tag hinzu!
Beschreibung
Zusammenfassung:To improve a layout and manufacturing method of a superconducting wireless frequency cell.SOLUTION: A superconducting wireless frequency cell includes: a main body defining a hollow cavity having first and second opposite end parts; an axis extending between a first drawing and a second drawing; and an equator of an axial circumference between the first drawing and the second drawing. The main body includes at least first welding seam in the axial circumference on the main body at a position separated from the equator. Each seam is extended so as to penetrate the main body, and includes both ends which end at the neighborhood of an inner side and an outer side of the main body. Each welding seam has the first welding by a conduction welding on a first side surface of the seam, and a second welding on the side opposite to them. The second welding may be caused in the conduction welding, a key hole welding, or a transition welding.SELECTED DRAWING: None 【課題】超伝導無線周波数セルの設計・製造法の改善【解決手段】第1および第2の対向する端部を有する中空の空洞を画定する本体、第1の絞りと第2の絞りとの間に延びる軸、および前記第1の絞りと前記第2の絞りとの間の軸周囲の赤道と、を含む超伝導無線周波数セル。前記本体は、前記赤道から離間した位置で前記本体上における前記軸周りに少なくとも第1の溶接継ぎ目を含む。各継ぎ目は、本体を貫通して延在し、前記本体の内側および外側の近傍で終端する両端を有し、各溶接継ぎ目は、前記継ぎ目の第1の側面に伝導溶接による第1の溶接を有し、その反対側に第2の溶接を有している。前記第2の溶接は、伝導溶接、キーホール溶接、または遷移溶接であり得る。【選択図】なし