19–24 May 2024
Music City Center
US/Central timezone

Development of new method of NEA Activation with Cs-Sb-O

SUPC055
19 May 2024, 14:00
4h
Country (MCC Exhibit Hall A)

Country

MCC Exhibit Hall A

201 Rep. John Lewis Way S, Nashville, TN 37203, USA
Student Poster Presentation MC2.T02 Electron Sources Student Poster Session

Speaker

Yukiya Wakita (Nagoya University)

Description

Negative Electron Affinity (NEA) activated GaAs photocathodes are the only one capable of generating spin-polarized electron beam larger than 90%. However, the NEA layer currently made from mainstream cesium (Cs) and oxygen (O) is chemically unstable, the NEA-GaAs photocathode has a rapid QE degradation over time or electron beam. As a result, it requires an operating vacuum pressure of 1e-9 Pa and has a short lifetime. Recently, a new NEA layer using heterojunctions with semiconductor thin film of alkali metals and antimony or tellurium has been proposed. The latest research shows that the NEA activation method using Cs-Sb-O is made by co-evaporation of Cs, O2 and Sb. However, the co-evaporation method has high demands on equipment. Therefore, in this work, we attempted to fabricate a Cs-Sb-O NEA layer using a separation evaporation method. Specifically, we attempted four recipes and successfully fabricated the NEA layer by Cs-Sb-O. We also evaluated the dependence of QE on Sb thickness and found that it is easy to form a NEA layer with 0.2 nm of Sb.

Funding Agency

U.S.-Japan Science and Technology Cooperation Program in High Energy Physics

Region represented Asia
Paper preparation format Word

Primary author

Yukiya Wakita (Nagoya University)

Co-authors

Mr Lei Guo (Nagoya University) Masao Kuriki (Hiroshima University) Yoshifumi Takashima (Nagoya University)

Presentation materials

There are no materials yet.