<i>In-situ</i> synchrotron x-ray characterization of K2CsSb photocathode grown by ternary co-evaporation

Ding, Zihao; Gaowei, Mengjia; Sinsheimer, John; Xie, Junqi; Schubert, S.; Padmore, H. A.; Muller, Edward N.; Smedley, J.

doi:10.1063/1.4975113

Cited by 25 publications

(18 citation statements)

References 11 publications

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“…A different grain structure has been observed based on the acquired diffraction pattern from the codeposited as-grown K-Cs-Sb photocathode which has a predominant (2 2 2) peak and weak (2 2 0) peak, when compared with the powder diffraction pattern acquired from polycrystalline K 2 CsSb samples prepared by traditional recipe which has a predominant (2 2 0) peak [22,23]. Such a result is in good agreement with the previous study on the characterization of codeposited K-Cs-Sb photocathodes [5] and this indicates that a highly textured K-Cs-Sb thin film is formed by the codeposition method which contrasts with the polycrystalline film formed by the sequential deposition.…”

Section: X-ray Diffractionsupporting

confidence: 89%

“…The simulation yields a rms roughness of 1.15 nm. The simulated thickness and roughness of the photocathode film grown by the three-element codeposition method are on a comparable level to those reported in a previous study [5]. After the decay is finished, the period of the XRR oscillations appears to be slightly larger, indicating a reduced film thickness.…”

Section: X-ray Diffractionsupporting

confidence: 81%

“…X-ray reflectivity X-ray reflectivity (XRR) measurements were also performed before and after the decay process. The details of the measurement setup and data processing are given elsewhere [5]. The experimental and simulated XRR curves for the K-Cs-Sb photocathode before and after the decay are shown in Fig.…”

Section: X-ray Diffractionmentioning

confidence: 99%

“…This recipe yields cathodes with ∼5% QE at 532 nm and provides a better reproducibility compared to the traditional sequential deposition recipe. This solves the roughness related emittance growth issue and enables the use of these photocathode materials in high-field electron guns [4,5]. So far, over a dozen of K-Cs-Sb photocathodes prepared by the codeposition method have been employed in the APEX VHF gun and have successfully demonstrated operational capabilities required by high repetition-rate FELs like LCLS-II [6].…”

Section: Introductionmentioning

confidence: 99%

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Temperature-dependent quantum efficiency degradation of K-Cs-Sb bialkali antimonide photocathodes grown by a triple-element codeposition method

Ding

Karkare

Feng

et al. 2017

Phys. Rev. Accel. Beams

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K-Cs-Sb bialkali antimonide photocathodes grown by a triple-element codeposition method have been found to have excellent quantum efficiency (QE) and outstanding near-atomic surface smoothness and have been employed in the VHF gun in the Advanced Photoinjector Experiment (APEX), however, their robustness in terms of their lifetime at elevated photocathode temperature has not yet been investigated. In this paper, the relationship between the lifetime of the K-Cs-Sb photocathode and the photocathode temperature has been investigated. The origin of the significant QE degradation at photocathode temperatures over 70°C has been identified as the loss of cesium atoms from the K-Cs-Sb photocathode, based on the in situ x-ray analysis on the photocathode film during the decay process. The findings from this work will not only further the understanding of the behavior of K-Cs-Sb photocathodes at elevated temperature and help develop more temperature-robust cathodes, but also will become an important guide to the design and operation of the future high-field rf guns employing the use of such photocathodes.

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Section: X-ray Diffractionsupporting

confidence: 89%

Section: X-ray Diffractionsupporting

confidence: 81%

Section: X-ray Diffractionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Temperature-dependent quantum efficiency degradation of K-Cs-Sb bialkali antimonide photocathodes grown by a triple-element codeposition method

Ding

Karkare

Feng

et al. 2017

Phys. Rev. Accel. Beams

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“…Models suggest that at the envisaged gradients for SRF photoinjectors (15)(16)(17)(18)(19)(20) the surface roughness of the photocathode must be reduced to values of R q ≤ 10 nm to maintain a roughness induced emittance contribution that is below the intrinsic emittance [9,10]. From recent works of Schubert et al and Ding et al it is apparent that the final roughness of alkali antimonide photocathodes depends strongly on the growth procedure and the crystallization processes involved [11,12]. It has been shown that the sequential growth process delivers very rough photocathodes due to the multiple phase transitions, while smoother photocathodes can be grown using new growth procedures such as triple evaporation of Cs-K-Sb using pure alkali metal sources and magnetron sputtering [13][14][15][16].…”

Section: Introductionmentioning

confidence: 99%

Towards the operation of Cs-K-Sb photocathodes in superconducting rf photoinjectors

Schmeißer

Mistry

Kirschner

et al. 2018

Phys. Rev. Accel. Beams

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High quantum efficiency photocathodes are mandatory for the operation of photoinjector driven electron accelerators with high average current and high brightness beams. Photocathodes based on bi-alkali antimonides, e.g., CsK 2 Sb, exhibit high quantum efficiencies for visible light and can be operated close to the photoemission threshold, thus they are suitable candidates to provide high current and low emittance electron beams. In this paper, a codeposition procedure of K and Cs on Sb resulting in high quantum efficiency photocathodes is presented and compared to the sequential growth procedure that was established for photomultiplier and accelerator applications. In-situ x-ray photoelectron spectroscopy is applied to gain insights into the reaction pathway of antimony with alkali metals, and to optimize the growth process of CsK 2 Sb on Mo. It has been found that the average stoichiometry of the samples is similar after both procedures. The study also presents the behavior of the photocurrent at cryogenic temperatures, the influence of cooling and warmup cycles on the photocathode lifetime and our experience with storage and transport. This work demonstrates that our codeposition growth procedure reproducibly delivers high quantum efficiency photocathodes, and that their quantum efficiency, when excited with green photons, is not influenced by cryogenic temperatures.

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Different physical properties of bi‐alkali pnictogen compounds using density functional theory

et al. 2020

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Summary The bi‐alkali pnictogens XY2Z (X and Y = Li, Na, K, Rb, Cs and Z = N, P, As, Sb, Bi) have attracted great attention for modern device applications. However, less effort has been paid to comprehensively investigate the physical properties of most of the compounds that belong to this family. In this work, the structural parameter such as bulk modulus, bond length and lattice constants of these compounds are calculated by suitable Poirier‐Tarantola equation of state. All these compounds show semiconducting nature, with a gap energy range from narrow to the wide band gap. The calculated results of band gap are also comparable with experimental and other theoretical results. The Z anion character is dominant in the valence band, whereas the conduction bands mostly have mixed contributions of ionic states. Anion variations (N to Bi) induces prominent variations in the optical properties. Prominent values of the entire optical responses lie in the visible to ultraviolet energy region indicate that these compounds can be used in electro‐optical and optoelectronic devices.

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In-situ synchrotron x-ray characterization of K2CsSb photocathode grown by ternary co-evaporation

Cited by 25 publications

References 11 publications

Temperature-dependent quantum efficiency degradation of K-Cs-Sb bialkali antimonide photocathodes grown by a triple-element codeposition method

Temperature-dependent quantum efficiency degradation of K-Cs-Sb bialkali antimonide photocathodes grown by a triple-element codeposition method

Towards the operation of Cs-K-Sb photocathodes in superconducting rf photoinjectors

Different physical properties of bi‐alkali pnictogen compounds using density functional theory

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