joining polycarbonate – manufacturing and evaluation of transparent joints using an innovative objective test method

Hofmann, Karoline

05 December 2017

Large-scale laminated safety glass is increasingly used in the public and private sector for example museums, jewelers or villas. Special safety is provided by these glasses in layered combination with polycarbonate sheets. Due to the low weight and its high tensile elongation comparing glass of the same thickness, highly transparent polycarbonate is suitable for safety-relevant components. Because of the dimensional limitation in the extrusion process, joining polycarbonate compounds are necessary for large-area joint of this laminated safety glass. According to the present state of the art, a transparent weld joint of polycarbonate is not possible. Within the scope of the project, polycarbonate joints were produced by infrared welding and adhesive bonding. The transparency of the joints was realized by varying the process parameters, for example the heating time. Additionally the present study focusses on a new innovative light intensity measurement, because conventional optical test methods can only subjectively assess the transparency and quality of the compound and the welding seam. The principle is based on the transmission of the welded and polished polycarbonate sample by means of a laser and the measurement of the current at the connected photoelectric cell, which is proportional to the intensity of the laserlight. This enables a qualitative evaluation of the joining dimension and -quality such as structural changes over the entire sample width. The results of this objective method correlate with the width of the stress distribution around the joining level, which are made visible with the photoelasticity using a polariscope and thus contribute to a better process understanding.

Polycarbonatschweißen

optisch transparente Fügeverbindung

unsichtbare Naht

neue Testmethode

infrared welding

new test method

joining polycarbonate

ddc:620

ddc:530

Polycarbonate

Schweißen

Testmethode

Aufbau und Funktionsnachweis eines optischen Moduls mit optisch-analoger Pulsübertragung für den AMANDA-II- und ICECUBE-Detektor

Schmidt, Torsten

15 November 2002

Für den AMANDA-Detektor wurde ein neuartiges Optisches Modul - das digitale Analoge Optische Modul (dAOM) - entwickelt. Es vereint sowohl lokale 'Intelligenz' zur Steuerung als auch aktive Elektronik zur optisch-analogen und elektrisch-analogen Pulsübertragung. Vorteile der optisch-analogen Übertragung sind die Immunität gegenüber einem Übersprechen zwischen den Signalkabeln, ein größerer linearer Signalbereich und eine gute Zeit- sowie Doppelpulsauflösung, wohingegen die elektrisch-analoge Übertragung das robuste elektrische Kabel als Verbindung mit der Datennahme nutzt. Deshalb dient sie als Ersatzübertragung, falls die optische Verbindung beschädigt wird. In der Saison 1999/2000 wurden 23 dAOMs im AMANDA-II-Detektor erfolgreich installiert. Das dAOM-Konzept wurde daraufhin weiterentwickelt. Der sogenannte dAOM++ war eine nahezu ideale Lösung für den zukünftigen ICECUBE-Detektor. / For the AMANDA detector a new type of Optical Module - the digital Analog Optical Module (dAOM) - has been developed. It incorporates some local 'intelligence' for slow control as well as active electronics for optical analog and electrical analog pulse transmission. Advantages of the optical analog transmission are the absence of crosstalk, a higher linear signal range and a good timing and double pulse resolution, whereas the electrical transmission uses the robust electrical cable as transmission line to the data aquisition. For that reason it is the fallback solution in case of a damaged optical transmission line. 23 dAOMs have been successfully installed in the AMANDA-II detector during the 1999/2000 season. After that the dAOM concept was further improved towards the dAOM++, which was a almost ideal solution for the ICECUBE detector.

AMANDA

ICECUBE

Optisches Modul

Photovervielfacher

Signalverarbeitung

AMANDA

ICECUBE

Optical Module

photomultiplier

signal processing

530 Physik

29 Physik, Astronomie

ddc:530

Lichtwellenleiterbasierte Dosisleistungsmessung mittels Radiolumineszenz und Optisch Stimulierter Lumineszenz

Teichmann, Tobias

13 March 2018

In Medizin und Technik besteht ein Bedarf an flexiblen, miniaturisierten Dosisleistungs-messgeräten mit hoher Ortsauflösung für den Einsatz in Strahlungsfeldern hoher Dosisleistung und Dosisleistungsgradienten. Lichtwellenleiterbasierte Dosisleistungsmess-systeme können diese Anforderungen erfüllen. Sie bestehen aus einem strahlungssensitiven Leuchtstoff, welcher über einen flexiblen Lichtleiter an einen Lichtdetektor gekoppelt ist. Die Eliminierung des dominierenden Störeinflusses, des bei Bestrahlung des Lichtleiters generierten Stem-Effekts, ist eine inhärente Herausforderung aller lichtwellenleiter¬basierten Dosisleistungsmesssysteme. In der vorliegenden Arbeit wird ein solches System unter Verwendung der Lumineszenz der gewebeäquivalenten Detektormaterialien Berylliumoxid und Lithiumtetraborat realisiert. Der Schwerpunkt liegt dabei auf der Untersuchung von Methoden der Stem-Eliminierung unter Nutzung der zeitlichen Charakteristik der Lumineszenzmaterialien sowie der zeitlichen Struktur des Strahlungsfeldes oder einer modulierten optischen Stimulation. Eine performante Ausleseelektronik auf FPGA-Basis ermöglicht Echtzeit-Messungen mit einer Abtastung von 10 ns. Verschiedene Auswertemethoden generieren aus den Rohdaten in Zeitstempelform eine stem-unabhängige, dosisleistungsproportionale Detektorantwort. / In medicine and technology there is a demand for flexible, miniaturized dose rate measurement systems with high spatial resolution for the application in radiation fields of high dose rates and dose rate gradients. Fiber optic coupled dosimeters can meet these requirements. They consist of a radiation sensitive luminescent material which is connected to a light detector with a flexible light guide. The elimination of the dominant perturbation, which is the stem effect generated by irradiation of the light guide, is one inherent challenge of all fiber optic dosimeters. In the present work such a system is realized, using the luminescence of the two tissue equivalent detector materials beryllium oxide and lithium tetraborate. The main focus is on the investigation of methods of stem elimination, exploiting the temporal characteristics of the luminescent materials, as well as the time structure of the irradiation or a modulated optical stimulation. For this purpose, capable FPGA-based read out electronics are employed, which enable real time measurements with 10 ns sampling. Different methods of analysis process the time stamp raw data and generate a stem-free, dose rate proportional detector response.

info:eu-repo/classification/ddc/530

ddc:530

joining polycarbonate – manufacturing and evaluation of transparent joints using an innovative objective test method: joining polycarbonate–manufacturing and evaluation of transparent joints using an innovative objective test method

Hofmann, Karoline

05 December 2017

Large-scale laminated safety glass is increasingly used in the public and private sector for example museums, jewelers or villas. Special safety is provided by these glasses in layered combination with polycarbonate sheets. Due to the low weight and its high tensile elongation comparing glass of the same thickness, highly transparent polycarbonate is suitable for safety-relevant components. Because of the dimensional limitation in the extrusion process, joining polycarbonate compounds are necessary for large-area joint of this laminated safety glass. According to the present state of the art, a transparent weld joint of polycarbonate is not possible. Within the scope of the project, polycarbonate joints were produced by infrared welding and adhesive bonding. The transparency of the joints was realized by varying the process parameters, for example the heating time. Additionally the present study focusses on a new innovative light intensity measurement, because conventional optical test methods can only subjectively assess the transparency and quality of the compound and the welding seam. The principle is based on the transmission of the welded and polished polycarbonate sample by means of a laser and the measurement of the current at the connected photoelectric cell, which is proportional to the intensity of the laserlight. This enables a qualitative evaluation of the joining dimension and -quality such as structural changes over the entire sample width. The results of this objective method correlate with the width of the stress distribution around the joining level, which are made visible with the photoelasticity using a polariscope and thus contribute to a better process understanding.

info:eu-repo/classification/ddc/620

ddc:620

info:eu-repo/classification/ddc/530

ddc:530

Polycarbonate; Schweißen; Testmethode

Pathways to servers of the future

Lehner, Wolfgang, Nagel, Wolfgang, Fettweis, Gerhard

11 January 2023

The Special Session on “Pathways to Servers of the Future” outlines a new research program set up at Technische Universität Dresden addressing the increasing energy demand of global internet usage and the resulting ecological impact of it. The program pursues a novel holistic approach that considers hardware as well as software adaptivity to significantly increase energy efficiency, while suitably addressing application demands. The session presents the research challenges and industry perspective.

info:eu-repo/classification/ddc/004

ddc:004

Non-Coding RNA-Based Biosensors for Early Detection of Liver Cancer

Falahi, Sedigheh, Rafiee-Pour, Hossain-Ali, Zarejousheghani, Mashaalah, Rahimi, Parvaneh, Joseph, Yvonne

12 July 2024

Primary liver cancer is an aggressive, lethal malignancy that ranks as the fourth leading cause of cancer-related death worldwide. Its 5-year mortality rate is estimated to be more than 95%. This significant low survival rate is due to poor diagnosis, which can be referred to as the lack of sufficient and early-stage detection methods. Many liver cancer-associated non-coding RNAs (ncRNAs) have been extensively examined to serve as promising biomarkers for precise diagnostics, prognostics, and the evaluation of the therapeutic progress. For the simple, rapid, and selective ncRNA detection, various nanomaterial-enhanced biosensors have been developed based on electrochemical, optical, and electromechanical detection methods. This review presents ncRNAs as the potential biomarkers for the early-stage diagnosis of liver cancer. Moreover, a comprehensive overview of recent developments in nanobiosensors for liver cancer-related ncRNA detection is provided.

info:eu-repo/classification/ddc/620

ddc:620

Nanostrukturiertes Material

Leberkrebs

Biosensor

Non-coding RNA

Triply-Resonant Cavity-Enhanced Spontaneous Parametric Down-Conversion

Ahlrichs, Andreas

22 July 2019

Die verlässliche Erzeugung einzelner Photonen mit wohldefinierten Eigenschaften in allen Freiheitsgraden ist entscheidend für die Entwicklung photonischer Quantentechnologien. Derzeit basieren die wichtigsten Einzelphotonenquellen auf dem Prozess der spontanen parameterischen Fluoreszenz (SPF), bei dem ein Pumpphoton in einem nichtlinearen Medium spontan in ein Paar aus Signal und Idlerphotonen zerfällt. Resonator-überhöhte SPF, also das Plazieren des nichtlinearen Mediums in einem optischen Resonator, ist ein weit verbreitetes Verfahren, um Einzelphotonenquellen mit erhöhter Helligkeit und angepassten spektralen Eigenschaften zu konstruieren. Das Anpassen der spektralen Eigenschaften durch gezielte Auswahl der Resonatoreigenschaften ist besonders für hybride Quantentechnologienvon Bedeutung, welche darauf abzielen, unterschiedliche Quntensysteme so zu kombinieren, dass sich deren Vorteile ergänzen. Diese Arbeit stellt eine umfassende theoretische und experimentelle Analyse der dreifach resonanten SPF vor. Das aus der Literatur bekannte theoretische Modell wird diesbezüglich verbessert, dass der Einfluss sämtlicher Eigenschaften des Resonators auf die wichtigen experimentellen Größen (z.B. die Erzeugungsrate) gezielt ausgewertet werden kann. Dieses verbesserte und hoch genaue Modell stellt eine wichtige Grundlage für die Entwicklung und Optimierung neuartiger Photonenpaarquellen dar. Im experimentellen Teil dieser Arbeit wird der Aufbau und die Charakterisierung einer dreifach resonanten Photonenpaarquellen präsentiert. Die neu entwickelte digitale Regelelektronik sowie ein hochstabiler, schmalbandiger Monochromator welcher auf monolitischen, polarisationsunabhängigen Fabry-Pérot Resonatoren basiert, werden vorgestellt. Indem diese temperaturstabilisierten Resonatoren als Spetrumanalysator verwendet werden, wird zum ersten Mal die Frequenzkammstruktur des Spektrums der erzeugten Signal- und Idlerphotonen nachgewiesen. Des Weiteren wird der Einfluss der Pumpresonanz auf die Korrelationsfunktion und die Zweiphotoneninterferenz von Signal- und Idlerphotonen simuliert und vermessen. Abschließend werden Experimente aus dem Bereich der hybriden Quantennetzwerke präsentiert, in welchen Quantenfrequenzkonversion verwendet wird um die erzeugten Signalphotonen in das Telekommunikationsband zu transferieren. Dabei wird nachgewiesen, dass das temporale Wellenpaket durch die Konversion nicht beeinflusst wird und aufgezeigt, wie Quantennetzwerke von kommerziellen Telekommunikationstechnologien profitieren können. / The consistent generation of single photons with well-defined properties in all degrees of freedom is crucial for the development of photonic quantum technologies. Today, the most prominent sources of single photons are based on the process of spontaneous parametric down-conversion (SPDC) where a pump photon spontaneously decays into a pair of signal and idler photons inside a nonlinear medium. Cavity-enhanced SPDC, i.e., placing the nonlinear medium inside an optical cavity, is widely used to build photon-pair sources with increased brightness and tailored spectral properties. This spectral tailoring by selective adjustment of the cavity parameters is of particular importance for hybrid quantum technologies which seek to combine dissimilar quantum systems in a way that their advantages complement each other. This thesis provides a comprehensive theoretical and experimental analysis of triply-resonant cavity-enhanced SPDC. We improve the theoretical model found in the literature such that the influence of all resonator properties on the important experimental parameters (e.g., the generation rate) can be analyzed in detail. This convenient and highly accurate model of cavity-enhanced SPDC represents an important basis for the design and optimization of novel photonpair sources. The experimental part of this thesis presents the setup and characterization of a triply-resonant photon-pair source. We describe the digital control system used to operate this source over days without manual intervention, and we present a highly stable, narrow-linewidth monochromator based on cascaded, polarization-independent monolithic Fabry-Pérot cavities. Utilizing these temperature-stabilized cavities as a spectrum analyzer, we verify, for the first time, the frequency comb spectral structure of photons generated by cavity-enhanced SPDC. We further simulate and measure the impact of the pump resonance on the temporal wave-packets and the two-photon interference of signal and idler photons. Finally, we present a series of experiments in the context of hybrid quantum networks where we employ quantum frequency conversion (QFC) to transfer the generated signal photons into the telecommunication band. We verify the preservation of the temporal wave-packet upon QFC and highlight how quantum networks can benefit from advanced commercial telecommunication technologies.

Quanten

Quantenoptik

nichtlineare Optik

Quantentechnologie

spontane parametrische Fluoreszenz

Photonenpaar

Einzelphoton

Verschränkung

verschränkte Photonen

optisch parametrischer Oszillator

Resonatorüberhöhung

optischer Resonator

quantum

quantum optics

quantum technology

nonlinear optics

spontaneous parametric down-conversion

down-conversion

photon pair

single photon

entanglement

entangled photons

optical parametric oscillator

cavity enhancement

optical cavity

optical resonator

530 Physik

UH 5600

ddc:530