The distribution of oxide species in the Cs∕O activation layer on InP(100) negative electron affinity photocathodes

Abstract: Abstract:The atomic arrangement of Cs oxides in the activation layer of an InP photocathode is investigated using Angle Dependent Photoemission Spectroscopy (ADPES). Two distinct peaks in the O1s core level and in valence band spectra have led to the discovery of two molecular oxygen species incorporated in the thin activation layer: Cs peroxide (Cs 2 O 2 ) and Cs superoxide SLAC-PUB-12711Submitted to Journal of Applied Physics 2 observation of the peak evolution in the photoemission spectra, and supported by… Show more

“…This large work function reduction is due to the strong surface dipole from the Cs/O coating, as has been found on many other substrate materials, including InP, 20 GaAs, 17,21 and Ga 1−x In x As, 22 with a very similar deposition technique. The estimated thickness of our Cs/O layer on graphene is 7 ± 3 Å, similar to previous studies (see Section 5 in Supporting Information), in which the chemical composition and atomic arrangement of the thin Cs/O layer have been carefully analyzed.…”

“…To lower the work function of a material, one typical approach is to lower the vacuum level by surface engineering, particularly by depositing a very thin layer (about one monolayer) of alkali metal, such as Cs, Li, Sr, or Ba, − that are sometimes combined with a proper amount of oxygen. Among these approaches, Cs/O coated materials typically have the lowest work function between 1.1 and 1.4 eV. − The underlying mechanism for the work function reduction through the application of a thin layer of Cs/O has been extensively studied in the 1960s and 1970s, primarily driven by the development of negative electron affinity (NEA) photocathodes. ,− …”

Engineering Ultra-Low Work Function of Graphene

“…This large work function reduction is due to the strong surface dipole from the Cs/O coating, as has been found on many other substrate materials, including InP, 20 GaAs, 17,21 and Ga 1−x In x As, 22 with a very similar deposition technique. The estimated thickness of our Cs/O layer on graphene is 7 ± 3 Å, similar to previous studies (see Section 5 in Supporting Information), in which the chemical composition and atomic arrangement of the thin Cs/O layer have been carefully analyzed.…”

“…To lower the work function of a material, one typical approach is to lower the vacuum level by surface engineering, particularly by depositing a very thin layer (about one monolayer) of alkali metal, such as Cs, Li, Sr, or Ba, − that are sometimes combined with a proper amount of oxygen. Among these approaches, Cs/O coated materials typically have the lowest work function between 1.1 and 1.4 eV. − The underlying mechanism for the work function reduction through the application of a thin layer of Cs/O has been extensively studied in the 1960s and 1970s, primarily driven by the development of negative electron affinity (NEA) photocathodes. ,− …”

Engineering Ultra-Low Work Function of Graphene

HAXPES at the Dawn of the Synchrotron Radiation Age

The photoemission characteristics of a NEA InGaN photocathode by simultaneously supplying Cs and O2