Your search keyword '"Multipactor effect"' showing total 6 results

1. Modelling laser modified secondary electron yield response of surfaces.

Author

Din, Amin A, Uren, Robin, Wackerow, Stefan, Fontenla, Ana T P, Pfeiffer, Stephan, Tabares, Elisa G, Zolotovskaya, Svetlana, and Abdolvand, Amin

Subjects

*YIELD surfaces, *LARGE Hadron Collider, *SURFACE chemistry, *ELECTRONS, *GEOMETRIC surfaces, *PARTICLE accelerators

Abstract

Electron clouds hinder the operation of particle accelerators. In the Large Hadron Collider (LHC), the copper beam screens are located within close proximity to the beam path, resulting in beam-induced electron multipacting, which is the main source of electron cloud formation. Conditions for multipacting are encountered when such surfaces have a secondary electron yield (SEY) greater than unity. Roughening the surface through laser processing offers an effective solution for reducing secondary electrons. Laser ablation leaves behind a complex rough, multi-scale geometrical surface with an altered chemical composition. Current models often over-simplify the geometry, do not have sufficient experimental data to derive input parameters, and exclude SEY-reducing mechanisms such as the surface chemistry. Leading to electron-matter interactions which do not resemble that of a real surface. Here, this complex surface is studied on copper used in the LHC, and the influence of microgeometry, inhomogeneous nanostructure and complex surface chemistry on the SEY is investigated. A novel, improved model is proposed that characterises these sophisticated structures, enabling the efficient design of surfaces to reduce SEY. To validate the model, samples were made using a variety of laser parameters. Modelling insights revealed that secondary electron suppression is not only caused by the microgeometry but also the nanostructure and chemical modification play a role. Contrary to the conventional theory, high aspect ratio structures are not necessarily required for effective SEY reduction. Currently, the model is applicable to a variety of surface morphologies and could be employed for other materials. [ABSTRACT FROM AUTHOR]

Published

2024

2. On the parallelization of multipacting simulation codes for the design of particle accelerator components.

Author

Navaridas, Javier, Pascual, Jose A., Galarza, Julen, Romero, Txomin, Muñoz, Juan L., and Bustinduy, Ibon

Subjects

*PARTICLE tracks (Nuclear physics), *COLLISIONS (Nuclear physics), *SIMULATION software, *PARTICLE accelerators, *PARALLEL programming, *SCALABILITY

Abstract

Particle trajectory and collision simulation is a critical step of the design and construction of novel particle accelerator components. However it requires a huge computational effort which can slow down the design process. We started from a sequential simulation program which is used to study an event called Multipacting. Our work explains the physical problem that is simulated and the implications it can have on the behavior of the components. Then we analyze the original program's operation to find the best options for parallelization. We first developed a parallel version of the Multipacting simulation and were able to accelerate the execution up to ∼ 35 × with 48 or 56 cores. In the best cases, parallelization efficiency was maintained up to 16 cores ( ∼ 95 %) and the speed-up plateaus at around 40–48 cores. When this first parallelization effort was tried for multi-power simulations, we found that parallelism was severely limited with a maximum of 20 × speed-up. For this reason, we introduced a new method to improve the parallelization efficiency for this second use case. This method uses a shared processor pool for all simulations of electrons (OnePool). OnePool improved scalability by pushing the speed-up to over 32 × . [ABSTRACT FROM AUTHOR]

Published

2024

3. Study of the Multipactor Effect in Groove Gap Waveguide Technology.

Author

Vague, Jose Joaquin, Asensio, Irene, Coves, Angela, Blas, Angel A. San, Reglero, Marta, Pantaleoni, Ana Vidal, Raboso, David, Baquero-Escudero, Mariano, and Boria, Vicente E.

Subjects

*DIGITAL divide, *RECTANGULAR waveguides, *RADIO frequency, *SOFTWARE development tools

Abstract

This article presents a theoretical and experimental comparative study of the different multipactor threshold values obtained in the rectangular waveguide (RW) and the groove gap waveguide (GGW). To this end, the multipactor effect has been first analyzed in an RW with a recently developed theoretical model. Then, the multipactor breakdown power levels in the equivalent GGW have been predicted with an accurate electron tracking code, showing a significant increment compared with the RW case. In order to validate these results, two $E$ -plane WR-90 RW transformers have been designed with a full-wave electromagnetic simulation tool. The central sections of these transformers have been implemented in RW and GGW, respectively, and their multipactor breakdown power levels have also been predicted. The two designed transformers have been fabricated in aluminum and then measured in terms of electrical response (scattering parameters) and RF multipactor effect (power threshold values). All the experimental results agree well with the set of simulated data, thus fully validating the performed study. [ABSTRACT FROM AUTHOR]

Published

2022

4. Advanced Techniques for Multipactor Testing

Author

Óscar Monerris Belda

Subjects

Multicarrier, Satellites, Multiportadora, Microwave devices, Comunicaciones espaciales, Multipactación, Radiofrecuencia (RF), Efecto multipactor, TEORÍA DE LA SEÑAL Y COMUNICACIONES, Dispositivos de microondas, High power RF testing, Radio Frequency (RF), Pruebas de RF de alta potencia, Multipactor effect, Satélites, Space communications, Multipaction

Abstract

[ES] En los últimos años han proliferado los nuevos sistemas de satélites, sobre todo las grandes constelaciones en las órbitas terrestres bajas. Casi todos los satélites transmiten señales digitales con diversas modulaciones y niveles de potencia. Y no sólo eso, el modelo de negocio exige un rápido despliegue de los satélites, lo que impone enormes restricciones a los proveedores de equipos de carga útil de microondas. Un área de riesgo clave para estos equipos sigue siendo la avería del multipactor bajo niveles de potencia de moderados a altos. Debido a la aleatoriedad inherente al fenómeno multipactor, los clientes tienden a añadir márgenes de diseño adicionales para los componentes de microondas de alta potencia. Esto se traduce en costes más elevados, dispositivos más voluminosos y más tiempo para las pruebas. A partir de la experiencia personal realizando ensayos de multipactor, la principal motivación del trabajo descrito en la tesis ha sido emprender una revisión exhaustiva de este fenómeno y desarrollar capacidades de ensayo multipactor de vanguardia. Proporcionar medios para la prueba rápida de multipactores bajo una variedad de señales moduladas de banda ancha. La tesis demuestra que las modulaciones analógicas y digitales tienen un impacto significativo en el umbral multipactor. También se analizan los regímenes multipactor a corto y largo plazo, regímenes que, en algunos casos, presentan umbrales multipactor muy diferentes para el mismo hueco crítico. La necesidad de reducir el peso de la carga útil de microondas convierte a la multiportadora en una excelente opción para los diseñadores. Al encaminar varias señales a través del mismo dispositivo, el peso de la carga útil se reduce drásticamente. Las soluciones comerciales para pruebas multicarrier no son adecuadas debido a los altos niveles de potencia requeridos. Se presentan varias estrategias para implementar bancos de pruebas multiportadora con parámetros controlables. Los resultados demuestran que la señal generada es precisa y estable en el tiempo. Por último, se propone un novedoso sistema de detección de multipactores para hacer frente a la detección de multipactores cuando se utilizan señales moduladas y multiportadora de cualquier ancho de banda. Este método tiene la misma sensibilidad que el conocido anulador de microondas para señales de onda continua y la supera para señales moduladas. El procesamiento digital de señales utilizado para detectar los patrones multipactor proporciona un método de detección totalmente autónomo., [CA] En els darrers anys han proliferat els nous sistemes de satèl·lits, sobretot les grans constel·lacions a les òrbites terrestres baixes. Gairebé tots els satèl·lits transmetten dades digitals amb diverses modulacions i nivells de potència. I no només això, el model de negoci exigeix un ràpid desplegament dels satèl·lits, cosa que imposa enormes restriccions als proveïdors de càrrega útil de microones. Una àrea de risc clau per a aquests equips continua sent la descarrega de multipactor sota nivells de potència de moderats a alts. A causa de l'aleatorietat inherent al fenomen multipactor, els clients tendeixen a afegir marges de disseny addicionals per als components de microones d'alta potència. Això es tradueix en costos més elevats, dispositius més voluminosos i més temps per a les proves. A partir de l'experiència personal realitzant assajos de multipactor, la motivació principal del treball descrit a la tesi ha estat emprendre una revisió exhaustiva d'aquest fenomen i desenvolupar capacitats d'assaig multipactor d'avantguarda. Proporcionar mitjans per a la prova ràpida de multipactors sota una varietat de senyals modulats de banda ampla. La tesi demostra que les modulacions analògiques i digitals tenen un impacte significatiu al llindar multipactor. També s'analitzen els règims multipactor a curt i llarg termini, règims que, en alguns casos, presenten llindars multipactor molt diferents per al buit crític mateix. La necessitat de reduir el pes de la càrrega útil de microones fa de la transmissií multiportadora en una excel·lent opció per als dissenyadors. Encaminant diverses senyals a través del mateix dispositiu, el pes de la càrrega útil es redueix dràsticament. Les solucions comercials per a proves multicarrier no són adequades a causa dels alts nivells de potència requerits. Es presenten diverses estratègies per implementar bancs de proves multiportadora amb paràmetres controlables. Els resultats demostren que el senyal amb què s'alimenta el dispositiu sotmès a proves és precís i estable en el temps. Finalment, es proposa un nou sistema de detecció de multipactors per fer front a la detecció de multipactors quan s'utilitzen senyals modulats i multiportadors de qualsevol amplada de banda. Aquest mètode té la mateixa sensibilitat que el conegut anul·lador de microones per a senyals d'ona contínua i la supera per a senyals modulats. El processament digital de senyals utilitzat per detectar els patrons multiactor proporciona un mètode de detecció totalment autònom., [EN] In the recent past, there has been a proliferation of new satellite systems, especially the large constellations in the Low Earth Orbits (LEOs). Nearly all satellites now carry digital traffic with a variety of modulations and power levels. Not only that, the business model requires rapid deployment of satellites, putting enormous constraints for the suppliers of microwave payload hardware. A key risk area for such equipment remains the multipactor breakdown under moderate to high power levels. Owing to the inherent randomness of the multipactor phenomenon, customers tend to add extra design margins for the high power microwave components. This results in higher costs, bulkier devices and longer time for testing. Based on personal experience in multipactor testing, the prime motivator for the work described in the thesis has been to undertake a comprehensive review of this phenomenon and develop cutting edge multipactor test capabilities, providing means for the rapid multipactor testing under a variety of wide-band modulated signals. The thesis dissertation shows that analog and digital modulations have a significant impact in the multipactor threshold. The short and long-term multipactor regimes are also analyzed, regimes that, in some cases, have very different multipactor thresholds for the same critical gap. The need to reduce the microwave payload weight by using multicarriers in a single transponder provides an excellent option for designers. By routing several signals through the same device, the payload weight is dramatically reduced. Commercial solutions for multicarrier testing are not suitable because of the high power levels required. Several strategies to implement multipactor test benches with controllable parameters are presented. Results prove that the signal being fed to the device under tests is accurate and stable over time. Finally, a novel multipactor detection system is proposed to cope with multipactor detection when modulated and multicarrier signals of any bandwidth are used. This method has the same sensitivity as the well known microwave nulling for continuous wave signals and surpasses it for modulated signals. The digital signal processing used to detect the multipactor patterns provides a full autonomous detection method.

Published

2023

5. A numerical and theoretical study of the multipactor appearance in the presence of a DC parallel electric field

Author

A. Plaçais, J. Hillairet, M. Belhaj, J. Puech, Institut de Recherche sur la Fusion par confinement Magnétique (IRFM), Commissariat à l'énergie atomique et aux énergies alternatives (CEA), ONERA / DPHY, Université de Toulouse [Toulouse], ONERA-PRES Université de Toulouse, Centre National d'Études Spatiales [Toulouse] (CNES), and European Project: 633053,H2020,EURATOM-Adhoc-2014-20,EUROfusion(2014)

Subjects

Dielectric materials, [PHYS]Physics [physics], [SPI]Engineering Sciences [physics], Electrostatics, General Physics and Astronomy, Particle-in-cell method, Atomic and molecular collisions, Multipactor effect, Resonance theory

Abstract

International audience; In this paper, we study the appearance of the multipactor in a simple system with a bottom plate holding a static potential Vd. We developed a numerical model to compute the evolution of the multipactor threshold as a function of the potential. We identify the nature of the resonant modes that appear at different Vd using resonance theory. Then, we use it to compute the theoretical threshold of the structure. As we use a very simplistic electron emission model to identify the multipactor modes, we compute the threshold in a more realistic configuration in a second step.

Published

2022

6. Medida de la Corriente Generada por el Efecto Multipactor mediante la Polarización del Conductor Interno de un Cable Coaxial

Author

Vorotynskyy Formagey, Vladyslav

Subjects

Current Measuring, Polarization, TEORIA DE LA SEÑAL Y COMUNICACIONES, Multipactor Effect, Grado en Ingeniería de Tecnologías y Servicios de Telecomunicación-Grau en Enginyeria de Tecnologies i Serveis de Telecomunicació, Efecto Multipactor, Free Electrons, Electrones Libres, Polarización, Medida de Corriente

Abstract

[ES] El efecto multipactor es un fenómeno no deseado que ocurre bajo condiciones específicas, como el alto vacío y la presencia de una señal electromagnética de alta potencia, y es causado por los electrones libres que son generados por la emisión secundaria de electrones. Este efecto es relevante para las aplicaciones espaciales, donde las posibles consecuencias oscilan entre el empeoramiento de la calidad de una señal transmitida y el completo fallo del sistema. Para entender cuándo ocurre el efecto multipactor, es necesario medir el número de electrones libres presentes en un dispositivo de radiofrecuencia que se encuentra en las condiciones anteriormente mencionadas. El método tradicional de evaluación de la cantidad de electrones libres involucra una sonda que se inserta en el dispositivo. Dicho método tiene una eficiencia y precisión baja, por lo que es difícil producir resultados precisos. Este proyecto pretende evaluar con precisión el número de electrones libres que se encuentran en un dispositivo RF (un cable coaxial) en un instante dado mediante la polarización del conductor interno y la medida de la corriente generada. Para conseguir esto, van a ser diseñados y probados varios prototipos de un circuito polarizador, utilizando optoacopladores como principal elemento. Posteriormente, el diseño definitivo se fabricará y se evaluará su funcionamiento., [EN] The multipactor effect is an unwanted phenomenon which occurs under specific conditions, such as high vacuum and the presence of a high-power electromagnetic signal, and it is caused by free electrons which are generated due to secondary electron emission. This effect is relevant to space applications, where its possible consequences range from the deterioration of a transmitted signal to a complete breakdown of the system. To understand when the multipactor effect happens, it is necessary to measure the number of free electrons which are present in an RF device in the cited vacuum environment. The traditional method of evaluating the quantity of free electrons involves a probe which is inserted into the device. This method, however, has low efficiency and precision, making it difficult to provide accurate results. This project aims to accurately estimate the number of free electrons located in an RF device (a coaxial cable) at a given time by polarizing its internal conductor and measuring the generated current. To achieve this, several prototypes of a polarization circuit will be designed and tested, using optocouplers as a key component, after which a final design will be manufactured and evaluated.

Published

2022