Your search keyword '"Bhorade, O."' showing total 7 results

1. THz vs NIR laser-assisted atom probe tomography of LaB6 samples.

Author

Karam, M., Houard, J., Bhorade, O., Blum, I., and Vella, A.

Subjects

ATOM-probe tomography, ELECTRON emission, PHOTON emission, ION emission, FEMTOSECOND lasers, SUBMILLIMETER waves, TERAHERTZ spectroscopy

Abstract

Terahertz (THz) radiation with low-energy photons (meV) is used in a wide range of applications, such as microscopy, sensing, and spectroscopy. However, recently, high amplitude THz pulses of MV/cm have been generated and used for electron emission and ion evaporation from field emitters, opening up the possibility of using high amplitude THz pulses for material imaging by THz-assisted atom probe tomography (APT). In this work, we compare the APT analyses of lanthanum hexaboride (LaB6) samples using a femtosecond near-infrared laser with those obtained using high-amplitude single-cycle THz pulses. The atomic-scale characterization of stoichiometric LaB6 is challenging in laser-assisted APT due to the detection losses of boron ions. Here, we show that the THz radiation reduces the emission of molecular ions and multiple detection events, and it increases the charge state of the emitted ions. All these effects result in an improvement in boron detection. Furthermore, the emission dynamics of boron and lanthanum ions differ in their evaporation times when using THz radiation. This work emphasizes the ability of high-amplitude, single-cycle THz pulses to well control material analysis in APT, leading to better results on chemical composition. It also paves the way for the use of this radiation for material manipulation. [ABSTRACT FROM AUTHOR]

Published

2024

2. THz driven field emission: energy and time-of-flight spectra of ions

Author

Karam, M, primary, Houard, J, additional, Damarla, G, additional, Rousseau, L, additional, Bhorade, O, additional, and Vella, A, additional

Published

2023

3. Isotopic Correction of Compositional Inaccuracies in the Atom Probe Analysis of LaB6.

Author

Ndiaye, S., Bhorade, O., Blum, I., Klaes, B., Bacchi, C., Houard, J., Vella, A., Vurpillot, F., and Rigutti, L.

Published

2024

4. Isotopic Correction of Compositional Inaccuracies in the Atom Probe Analysis of LaB6

Author

Ndiaye, S., Bhorade, O., Blum, I., Klaes, B., Bacchi, C., Houard, J., Vella, A., Vurpillot, F., and Rigutti, L.

Abstract

The atomic-scale characteristics of stoichiometric lanthanum hexaboride (LaB6) material are investigated in this work using atom probe tomography (APT). The presence of a higher background level in the mass spectrum is attributed to continuous boron evaporation, causing preferential boron loss and affecting composition measurements. The measured composition in LaB6exhibits inaccuracies influenced by the experimental conditions, particularly showing an excess of lanthanum (La). This enrichment is consistently linked to boron’s tendency for continuous evaporation, leading to a higher fraction of multiple evaporation and detection events. Consequently, the susceptibility of boron to measurement errors is increased due to detector limitations. To address this issue, we propose a method of compositional correction based on pseudomultiple events and an abundance of isotopic pairs, which has been successfully applied to elements with two isotopes and has the potential for elements with multiple isotopes.

Published

2024

5. Bright and ultrafast electron point source made of LaB6 nanotip

Author

Bhorade, O., primary, Deconihout, B., additional, Blum, I., additional, Moldovan, S., additional, Houard, J., additional, Normand, A., additional, Jagtap, K., additional, More, M., additional, and Vella, A., additional

Published

2023

6. Bright and ultrafast electron point source made of LaB6 nanotip.

Author

Bhorade, O., Deconihout, B., Blum, I., Moldovan, S., Houard, J., Normand, A., Jagtap, K., More, M., and Vella, A.

Published

2023

7. Bright and ultrafast electron point source made of LaB 6 nanotip.

Author

Bhorade O, Deconihout B, Blum I, Moldovan S, Houard J, Normand A, Jagtap K, More M, and Vella A

Abstract

The development of time-resolved transmission electron microscopy (TEM), ultrafast electron spectroscopy and pulsed X-ray sources relies on the realization of stable and high brightness sources of ultra-short electron bunches with a long service time. The flat photocathodes implanted in thermionic electron guns have been replaced by Schottky-type or cold-field emission sources driven by ultra-fast laser. Recently, lanthanum hexaboride (LaB 6 ) nanoneedles have been reported to have high brightness and high emission stability when working in a continuous emission mode. Here, we prepare nano-field emitters from bulk LaB 6 and we report on their use as ultra-fast electron sources. Using a high repetition rate laser in the infrared range, we present different field emission regimes as a function of the extraction voltage and laser intensity. The properties of the electron source (brightness, stability, energy spectrum and emission pattern) are determined for the different regimes. Our results show that LaB 6 nanoneedles can be used as ultrafast and ultra-bright sources for time-resolved TEM, with better performances as compared to metallic ultra-fast field-emitters., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2023