The room temperature CH-DTL and its application for the FAIR Proton injector

Clemente, Gianluigi.

Unknown Date

University, Diss., 2007--Frankfurt (Main).

Injektionssystem und Massenflussregler in Mikrosystemtechnik für die Gaschromatographie

Krusemark, Olaf

January 2008

Zugl.: Hamburg, Techn. Univ. Diss., 2008

Development of an IH-DTL injector for the Heidelberg cancer therapy project

Lu, Yuanrong.

January 2005

Frankfurt (Main), Univ., Diss., 2005.

Emittance Compensation for SRF Photoinjectors

Vennekate, Hannes

21 September 2017

The advantages of contemporary particle injectors are high bunch charges and good beam quality in the case of normal conducting RF guns and increased repetition rates in the one of DC injectors. The technological edge of the concept of superconducting radio frequency injectors is to combine the strengths of both these sides. As many future accelerator concepts, such as energy recovery linacs, high power free electron lasers and certain collider designs, demand particle sources with high bunch charges and high repetition rates combined, applying the superconductivity of the accelerator modules to the injector itself is the next logical step. However, emittance compensation — the cornerstone for high beam quality — in case of a superconducting injector is much more challenging than in the normal conducting one. The use of simple electromagnets generating a solenoid field around the gun’s resonator interferes with its superconducting state. Hence, it requires novel and sophisticated techniques to maintain the high energy gain inside the gun cavity, while at the same time alleviating the detrimental fast transverse emittance growth of the bunch. In the case of the ELBE accelerator at the Helmholtz-Zentrum Dresden-Rossendorf, a superconducting electron accelerator provides beam for several independent beamlines in continuous wave mode. The applications include IR to THz free electron lasers, neutron and positron generation, to Thompson backscattering with an inhouse TW laser, and hence, call for a flexible CW injector. Therefore, the development of a 3.5 cell superconducting electron gun was initiated in 1997. The focus of this thesis lies on three approaches of transverse emittance compensation for this photoinjector: RF focusing, the installation of a superconducting solenoid close to the cavity’s exit, and the introduction of a transverse electrical mode of the RF field in the resonator. All three methods are described in theory, examined by numerical simulation, and experimentally reviewed in the particular case of the ELBE SRF Gun II at HZDR and a copy of its niobium resonator at Thomas Jefferson National Laboratory, Newport News, VA, USA.

SRF Injektor

Strahlung

ELBE

Supraleitfähigkeit

Beschleunigerphysik

SRF Injector

Emittance

ELBE

Superconductivity

Accelerator Physics

ddc:539

Emittance Compensation for SRF Photoinjectors

Vennekate, Hannes

January 2017

The advantages of contemporary particle injectors are high bunch charges and good beam quality in the case of normal conducting RF guns and increased repetition rates in the one of DC injectors. The technological edge of the concept of superconducting radio frequency injectors is to combine the strengths of both these sides. As many future accelerator concepts, such as energy recovery linacs, high power free electron lasers and certain collider designs, demand particle sources with high bunch charges and high repetition rates combined, applying the superconductivity of the accelerator modules to the injector itself is the next logical step. However, emittance compensation — the cornerstone for high beam quality — in case of a superconducting injector is much more challenging than in the normal conducting one. The use of simple electromagnets generating a solenoid field around the gun’s resonator interferes with its superconducting state. Hence, it requires novel and sophisticated techniques to maintain the high energy gain inside the gun cavity, while at the same time alleviating the detrimental fast transverse emittance growth of the bunch. In the case of the ELBE accelerator at the Helmholtz-Zentrum Dresden-Rossendorf, a superconducting electron accelerator provides beam for several independent beamlines in continuous wave mode. The applications include IR to THz free electron lasers, neutron and positron generation, to Thompson backscattering with an inhouse TW laser, and hence, call for a flexible CW injector. Therefore, the development of a 3.5 cell superconducting electron gun was initiated in 1997. The focus of this thesis lies on three approaches of transverse emittance compensation for this photoinjector: RF focusing, the installation of a superconducting solenoid close to the cavity’s exit, and the introduction of a transverse electrical mode of the RF field in the resonator. All three methods are described in theory, examined by numerical simulation, and experimentally reviewed in the particular case of the ELBE SRF Gun II at HZDR and a copy of its niobium resonator at Thomas Jefferson National Laboratory, Newport News, VA, USA.

info:eu-repo/classification/ddc/539

ddc:539

Evaluating the Performance of Propulsion System Elements in an Aerospace Company

Fredouelle, David

January 2023

This paper examines two examples of testing activities of sub-components of a 300kN methalox first-stage rocket engine developed by Pangea Aerospace, namely, theinjectors and the cryogenic pumps. One of the difficulties of these test campaignsis to evaluate the performances of these sub-components without using cryogenicpropellants and in conditions differing from flight conditions.Two different methods were used to replace the cryogenic propellants at extreme pressures and temperatures: the pumps were tested using water to replace both propellants, and the injectors were tested using water and nitrogen to account for the different propellant phases. The correlation, similarity methods, and bench sizing were detailed for both test campaigns, but only the injector test campaign was completed and its results were analyzed.The method to emulate cryogenic fluid behavior in a pump leads to the use of a bench controlling not only pressure and mass flow but also temperature to account for the cavitation effects. Furthermore, the bench must have the capability to pressurize the water under atmospheric pressure, leading to the use of a vacuum pump. The injector test campaign produces results that closely align with theoretical predictions. This enables the selection of the optimal single-element injector design through a quantitative assessment of the discharge coefficient and a qualitative evaluation of the spray angle and atomization. Although these studies are based on strong models, they must be compared to hotfire data and later flight data to be assessed fully, all the more so that the pump test campaign was not performed. / I denna rapport behandlas två exempel på provningsaktiviteter för delkomponenter av en methalox-driven 300 kN-klass raketmotor, utvecklad av Pangea Aerospace för användning på förstasteg. Delkomponenterna består av injektorerna samt dekryogena pumparna. En av svårigheterna med provkampanjerna är att utvärdera prestandan hos dessa delkomponenter utan att använda kryogena drivmedel och underförhållanden som skiljer sig från flygförhållandena. Två olika metoder användes för att imitera de kryogena drivmedlen vid extrema tryck och temperaturer. Först testades pumparna med vatten som en ersättning för de båda drivmedlen, och sedan testades injektorerna med både vatten och kväve för att ta hänsyn till de olika aggregations tillstånden. Korrelationen, likhetsmetoderna, samt provbänkstorleken utredes i detalj för bägge testkampanjer, men endast injektortestkampanjen slutfördes och dess resultat analyserades. Metoden för att efterlikna kryogena vätskors beteende i en pump leder till användning av en provbänk som inte bara reglerar tryck och massflöde utan även temperatur för att ta hänsyn till kavitations effekterna. Dessutom måste bänken ha kapacitet att trycksätta vattnet under atmosfärstryck, vilket leder till användning av en vakuumpump. Injektortestkampanjen ger resultat som ligger nära de teoretiska förutsägelserna. Detta gör det möjligt att välja den optimala injektordesignen genom en kvantitativ bedömning av utloppskoefficienten och en kvalitativ bedömning av vinkeln och finfördelningen av injektorstrålen. Även om dessa studier baseras på starka modeller måste de jämföras med data från brännprover och senare flygdata för att kunna bedömas fullt ut, särskilt som pumptestkampanjen inte genomfördes.

Turbomachinery

injector

test campaign

cryogenic

rocket engine

test bench

cold flow

Turbomaskin

injektor

testkampanj

kryogen

raketmotor

testbänk

kallt flöde

Energy Engineering

Energiteknik

Návrh a realizace managovatelného PoE injektoru / Design and implementation of managed PoE injector

Frkal, Pavel

January 2016

This study deals with power supply for network devices using existing structured cabling. Various power supplies are analysed including their limitations and also deals with measuring of the consumed energy. The outcome is 24-port passive PoE injector for remote power supply of network equipment. It's suitable namely for remote devices which lacks built-in PoE support as these do not need major modifications (using passive injection). Power options including current measurement may be done via administrative web interface.

Injektionskoncept för reumatiker : Förbättrad ergonomi vid långa injektionstider / Injection concept for reumatics

Lagos Sallhed, Amanda, Simonsson, Hedvig

January 2018

Detta examensarbete är utfört på uppdrag av företaget SHL Group AB, som producerar injektorer för patienter med kroniska sjukdomar. Injektorerna är anpassade för att patienten själv ska hantera dem i hemmet. Läkemedel som tas fram idag blir allt mer komplexa vilket kan leda till större volymer och längre injektionstider. Syftet med detta examensarbete var att ta fram ett injektionskoncept anpassat för större volymer samt hanterbar för reumatiker vid långa injektionstider. Fokus på projektet har legat kring användarstudier och den kreativa processen. För att ta reda på vilka behov som produkten behöver tillgodose har intervjuer och enkätundersökningar genomförts med reumatiker. Idéprocessen utfördes med hjälp av flera olika kreativa verktyg så som persona, Kanomodellen, House of Quality och brainstorming. Med hjälp av dessa verktyg togs fyra olika koncept fram och arbetet resulterade i en injektorhållare som under injektionen spänns fast på kroppen. / This is a thesis project carried out on behalf of the company SHL Group AB, which produces injectors for patients with chronic diseases. The injectors are adapted to the patient's own handling of them at home. Drugs that are being developed today are becoming more complex, leading to larger volumes and longer injection times. The purpose of this degree project is to develop a concept that is adapted to larger volumes and manageable for rheumatics at long injection times. The focus of the project has been user studies and the creative process. In order to find out which needs the product has to meet, interviews and questionnaires with rheumatics have been conducted. The idea process was performed using several creative tools such as persona, The Kano Model, House of Quality and brainstorming. Using these tools, four different concepts were developed and the work resulted in an injector holder that is fastened onto the body during injection.

Auto injector

biological drugs

injector

SHL Group

Chronical disease

rheumatism

ergonomic

industrial design

aid

Autoinjektor

biologiska läkemedel

injektor

SHL Group

kronisk sjukdom

reumatism

ergonomi

industridesign

hjälpmedel

Engineering and Technology

Teknik och teknologier

Development of a compact test facility for SRF Photoelectron injectors

Völker, Jens

09 August 2018

SHF Photoelektroneninjektoren sind eine vielversprechende Elektronquelle für hochbrillante Teichenbeschleuniger mit hohem mittlerem Strom und kurzen Teilchenpulsen, wie FELs und ERLs. Für das ERL Projekt bERLinPro wurde einer unabhängige Testanlage GunLab entwickelt um die Leistungsfähigkeit der Injektoren und die Strahlparameter zu überprüfen. Darüber hinaus können neue Komponenten zur Strahldiagnose getestet werden. Die Hauptaufgabe von GunLab ist die Beschreibung des vollständigen sechsdimensionalen Phasenraums der Elektronen in Abhängigkeit aller Injektorparameter. Die Anlage besteht aus einer kompakten Diagnosestrahlführungan dem SHF Photoelektroneninjektoren und einem Kathodenlasersystem. Im Rahmen dieser Arbeit wurden analytische und numerische Studien zu den SHF Photoelektroneninjektoren durchgeführt, um zu erwartende Strahlparameter zu detektieren und die Anforderungen an die Strahldiagnose festzulegen. Darüber hinaus wurden verschiedene Emittanzbeiträge der einzelnen Injektorkomponenten untersucht. Diesbezüglich wurde das Magnetfeld des aktuellen Solenoiden kartiert und auf Asymmetrien getestet, die ebenfalls zu Emittanzvergrößerungen beitragen können. Eine der wesentlichen Komponenten der Diagnosestrahlführung ist das (transversale) Phasenraummesssystem, für das eine besondere Magnetgeometrie entwickelt wurde. Weitere Diagnose Komponenten sind ein optimierter Spektrometerdipol und eine transversal ablenkende Kavität, durch die sich zusammen mit zwei Quadrupolmagneten die Scheibenemittanz bestimmen lässt. Für GunLab wurden unterschiedliche optische Messsysteme entwickelt und optimiert. Der herausforderndste Aufbau ist dabei das Strahl-Halo Messsystem. Es ermöglicht die Beobachtung der transversalen Ladungsverteilung über einen Dynamikbereich von bis zu 6 Größenordnungen. Die Leistungsfähigkeit und die Auflösung aller Messsysteme und Messroutinen wurden bestimmt, um die Visualisierung des kompletten Phasenraums durch GunLab sicher zu stellen. / SRF photoelectron injectors are promising electron sources for high brightness accelerators with high average current and short pulse duration like FELs and ERLs. For the ERL project bERLinPro an independent test facility called GunLab was developed and set up to optimize the operation performance of SRF photoinjectors and the electron beam parameters. Furthermore, GunLab allows to investigate the operation of different kinds of photocathodes in the environment of an SRF accelerator and to study new beam diagnostic concepts. Of outmost importance is the characterization of the full six dimensional phase space as a function of all injector parameters. GunLab consists of the compact diagnostic beam line, connected to the SRF photoinjetor module, and a drive laser. In the context of this thesis, analytical and numerical investigations of the SRF photoinjector were performed to estimate beam parameter ranges and to determine the diagnostics requirements. Furthermore, various emittance contributors of the injector were determined. Thereby the magnetic field of the final designed solenoid was measured to determine field asymmetries, which are one major source of emittance growth. One of the central diagnostic components of the beamline is the (horizontal) phase space scanner system. For this purpose, a dedicated air-coil magnet design was developed. Additional diagnostic components include an optimized spectrometer system, a transverse deflecting cavity (TCav) and two quadrupole magnets, to determine longitudinal and sliced emittance. For GunLab different optical measurement systems were developed and optimized, the most challenging setup is a beam halo measurement system. This device is able to observe the transverse charge density with a dynamic range of up to 6 orders of magnitude. The performance and the resolution of all measurement systems and routines for GunLab were determined to ensure the visualization of the electron beam phase space.

Supraleitend

Photoelektronen

Injektor

Beschleuniger

Elektronen

Strahldiagnose

Magnete

Optik

Linearbeschleuniger

Multipolentwicklung

Luftspulen

Solenoid

Kavität

Spektrometer

Hochfrequenz

superconducting

photoelectron

injector

accelerator

electrons

beam diagnostic

magnets

optics

linear accelerator

magnetic multipols

air-core coils

solenoid

cavity

spektrometer

radio-frequency

530 Physik

UN 6410

ddc:530

Beam Dynamics and Limits for High Brightness, High Average Current Superconducting Radiofrequency (SRF) Photoinjectors

Panofski, Eva

05 June 2019

Zukünftige Beschleunigerprojekte und Nutzerexperimente erfordern für ihren Betrieb einen hochbrillanten Elektronenstrahl mit hohem mittlerem Strom. Eine Elektronenquelle mit dem Potential die Anforderungen erfüllen, ist ein supraleitender Hochfrequenz (SHF) Photoinjektor im Dauerstrichbetrieb. Die Strahldynamik eines solchen Photoinjektor Systems bestimmt die maximal zu erreichende Strahlbrillanz und wird ihrerseits von den Design und Betriebsparametern des Photoinjektors beeinflusst. Ziel ist immer die entscheidenden Design- und Betriebsparameter der Elektronenquelle hinsichtlich einer maximalen Strahlbrillanz zu wählen. Diese Aufgabe verlangt ein detailliertes Verständnis der Strahldynamik-Prozesse. Ferner ist es notwendig, eine Optimierung des Photoinjektors als Ganzes, mit dem Ziel einer maximalen Strahlqualität bei hohem mittlerem Strom, vorzunehmen. Dieses ermöglicht auch, die physikalischen Grenzen eines gegebenen Designs zu ermitteln und im Betrieb vollständig auszunutzen. Diese Doktorarbeit befasst sich mit der Strahldynamik in einem SHF Photoinjektor, unter Berücksichtigung interner Raumladungseffekte. Die Erkenntnisse zur Strahldynamik werden für die Entwicklung eines Optimierungsprogramms verwendet, um die Leistung des Injektors hinsichtlich der Strahlbrillanz zu verbessern. Die entwickelte Methode basiert auf Pareto-Optimierung mehrerer Zielfunktionen, unter Verwendung eines generischen Algorithmus. Das zentrale Ergebnis dieser Arbeit umfasst ein universelles Optimierungsprogramm, das für Photoinjektoren unabhängig von ihrem Design und Anwendungsgebiet genutzt werden kann. Für den Betrieb mit hoher Strahlbrillanz ist es möglich aus den erhaltenen Pareto-optimalen Lösungen einen stabilen Satz an Einstellwerten für den Photoinjektor zu extrahieren. Durch die allgemeine Optimierungsstrategie lässt sich das entwickelte Programm auch für andere Beschleunigerabschnitte, oder die Optimierung einer ganzen Anlage mit erweiterter Zielsetzung anpassen. / An increasing number of future accelerator projects, light sources and user experiments require high brightness, high average current electron beams for operation. Superconducting radio-frequency (SRF) photoinjectors running in continuous-wave (cw) mode hold the potential to serve as an electron source that generates electron beams of high brightness. Different operation and design parameters of the SRF photoinjector impact the beam dynamics and, thus, the beam brightness. Therefore, an in-depth understanding of the beam dynamics processes in an SRF photoinjector and the dependency of the beam dynamics on the photoinjector set parameters is crucial. A high brightness beam operation requires a global optimization of the SRF photoinjector that allows to find suitable photoinjector settings and to figure out and extend the physical performance limits of the investigated injector design. The dissertation at hand offers a detailed analysis of the beam dynamics in an SRF photoinjector regarding internal space charge effects. Furthermore, the impact of the photoinjector elements on the electron beam is discussed. The lessons learned from this theoretical view are implemented in the development of an optimization tool to achieve a high brightness performance. A universal multi-objective optimization program based on a generic algorithm was developed to extract stable, optimum gun parameter from Pareto-optimum solutions. This universal tool is able to optimize and find the physical performance limit of any (S)RF photoinjector independent from the individual application of the electron source (energy recovery linac, free electron laser, ultra-fast electron diffraction). This thesis thereby verifies and complements existing theoretical considerations regarding photoinjector-beam interactions. The global optimization strategy can be introduced to variable optimization objectives as well as it can be extended to an optimization of further parts of the accelerator facility.

Supraleitend

Photoelektronen

Injektor

Photoinjektor

Beschleuniger

Elektronen

Strahldynamik

Optik

Linearbeschleuniger

Kavität

Hochfrequenz

Optimierung

Pareto Optimum

Teilchenquelle

Elektronenquelle

Strahlbrillianz

superconducting

photoelectrons

injector

photoinjector

accelerator

electrons

beam dynamics

optics

linear accelerator

cavity

radio-frequency

optimization

multi-objective optimization

particle tracking

Pareto optimum

particle source

electron source

beam brightness

530 Physik

UN 6410

UN 6500

ddc:530