Bursting dynamics and topological structure of in vitro neuronal networks / Dynamik von Bursts und topologische Struktur von neuronalen Netzwerken in vitro

Stetter, Frank Olav

22 October 2012

No description available.

530 Physik

RDH 200

Physics

Neuron

Verbindungen

Kalzium-Fluoreszenz

Transfer-Entropie

Kausalität

Bursts

Synchronisation

In Vitro

Zellkultur

Effektive Konnektivität

Netzwerk

neuron

connectivity

calcium fluorescence

transfer entropy

causality

bursts

synchronization

in vitro

cultured networks

effective connectivity

network

33.90

Synaptic Vesicles Studied by Small-Angle X-Ray Scattering / Synaptische Vesikel untersucht mittels Kleinwinkel-Röntgenstreuung

Castorph, Simon Johannes

14 June 2010

Die heterogene Struktur von aus Rattenhirn isolierten Synaptischen Vesikeln wird untersucht mittels Daten aus Kleinwinkel-Röntgenstreuexperimenten unter Berücksichtigung von Daten erhalten durch cryogene Elektronenmikroskopie, dynamische Lichtstreuung und biochemische Analysen. Es werden niedrig aufgelöste Strukturmodelle des funktionellen Synaptischen Vesikels unter quasi-physiologischen Bedingungen vorgeschlagen. Details des Dichteprofils der Membran, einschließlich Beiträgen von Lipiden und Proteinen werden bestimmt. Die typische Konformation und die allgemeine laterale Organisation der Proteine in Mikrodomänen werden ermittelt. Entropische Beiträge zur freien Energie aufgrund möglicher Bildung und Auflösung der Proteinmikrodomänen auf dem Synaptischen Vesikel werden untersucht. Ferner werden zellfreie Fusionssysteme mittels dynamischer Lichtstreudaten charakterisiert und mögliche Anwendungen von Kleinwinkel-Röntgenstreuung für die Untersuchung von Membran-Fusionsprozessen erörtert.

530 Physik

Physics

Formfaktor

Kleinwinkel-Röntgenstreuung

Synaptische Vesikel

Struktur

Modellierung

form factor

small-angle x-ray scattering

SAXS

synaptic vesicles

structure

modeling

42.12 Biophysik

WC 100 Biophysikalische Methoden

High-bandwidth microrheology of cytoskeletal networks / Mikrorheologie mit hoher Bandbreite in Zytoskelett-Netzwerken

Bremerich, Marcel

18 January 2012

No description available.

530 Physik

Mikrorheologie

Optische Falle

Zytoskelett

semiflexible Polymere

Microrheology

optical trap

cytoskeleton

semiflexible polymers

42.12

33.90

33.79

WC 000: Biophysik

RPV 280: Mikroskop {Physik: Optik}

RFK 000: Rheologie {Physik: Mechanik}

Ultrafast Photon Management: The Power of Harmonic Nanocrystals in Nonlinear Spectroscopy and Beyond

Kijatkin, Christian

01 April 2019

The present work broaches the physics of light-matter interaction, chiefly using nonlinear optical spectroscopy in a newly developed framework termed as Photon Management Concept. This way, existing fragments dealing with specific properties of harmonic and upconversion nanoparticles (HNPs/UCNPs) are consolidated into a full and coherent picture with the primary goal of understanding the underlying physical processes and their impact on the application side, especially in terms of imaging techniques, via suitable experimental and numerical studies. Contemporary optical setups involving contrast-enhancing agents are frequently limited in their excitation and detection configurations owing to a specialization to a select number of markers. As a result, the bandwidth of experimental methods and specimens that may be investigated is severely restricted in a large number of state-of-the-art setups. Here, an alternative approach involving HNPs and UCNPs, respectively, is presented providing an overview from their synthesis to optical characterization and to potential fields of application. Based on their inherent flexibility based on their nonlinear optical response, especially in terms of wavelength and intensity tunability, the PMC alleviates prevalent limitations by dynamically adapting the setup to a sample instead of the preliminary culling to a reduced number of eligible specimens that must not change their optical properties significantly during investigation. The use of HNPs supersedes such concerns due to their nearly instantaneously generated, strongly anti-Stokes shifted, coherent emission capable of producing radiation throughout the visible spectral range, including infrared and ultraviolet wavelengths. This way, HNPs transcend the traditional field of imaging and introduces potential applications in optomanipulation or holographic techniques. Thorough (nonlinear) optical characterization of UCNPs and alkali niobate HNP ensembles is performed to assess the fundamental physical mechanisms interwoven with numerical studies leading to their wide-ranging applicability. Final remarks show that HNPs are ideal candidates for realization of the PMC and yet hold an even further potential beyond current prospects.

Nonlinear Optics

Ultrafast Physics

Harmonic Nanoparticles

Upconversion Nanoparticles

Spectroscopy

Harmonic Generation

Luminescence

LiNbO3

33.07 - Spektroskopie

33.18 - Optik

33.38 - Quantenoptik, nichtlineare Optik

33.79 - Kondensierte Materie: Sonstiges

81.07.Wx - Nanopowders

ddc:530