17 research outputs found
Spectral-interference microscopy for characterization of functional plasmonic elements
Plasmonic modes supported by noble-metal nanostructures offer strong subwavelength electric-field confinement and promise the realization of nanometer-scale integrated optical circuits with well-defined functionality. In order to measure the spectral and spatial response functions of such plasmonic elements, we combine a confocal microscope setup with spectral interferometry detection. The setup, data acquisition, and data evaluation are discussed in detail by means of exemplary experiments involving propagating plasmons transmitted through silver nanowires. By considering and experimentally calibrating any setup-inherent signal delay with an accuracy of 1 fs, we are able to extract correct timing information of propagating plasmons. The method can be applied, e.g., to determine the dispersion and group velocity of propagating plasmons in nanostructures, and can be extended towards the investigation of nonlinear phenomena
A fat-tissue sensor couples growth to oxygen availability by remotely controlling insulin secretion
The mechanisms by which organisms adapt their growth according to the availability of oxygen are incompletely understood. Here the authors identify the D rosophila fat body as a tissue regulating growth in response to oxygen sensing via a mechanism involving Hph inhibition, HIF1-a activation and insulin secretion
Roadmap on holography
From its inception holography has proven an extremely productive and attractive area of research. While specific technical applications give rise to 'hot topics', and three-dimensional (3D) visualisation comes in and out of fashion, the core principals involved continue to lead to exciting innovations in a wide range of areas. We humbly submit that it is impossible, in any journal document of this type, to fully reflect current and potential activity; however, our valiant contributors have produced a series of documents that go no small way to neatly capture progress across a wide range of core activities. As editors we have attempted to spread our net wide in order to illustrate the breadth of international activity. In relation to this we believe we have been at least partially successful.This work was supported by Ministerio de EconomĂa, Industria y Competitividad (Spain) under projects FIS2017-82919-R (MINECO/AEI/FEDER, UE) and FIS2015-66570-P (MINECO/FEDER), and by Generalitat Valenciana (Spain) under project PROMETEO II/2015/015
Fernfeld-Charakterisierung und Steuerung von propagierenden ultrakurzen optischen Nahfeldern
In this work, femtosecond laser pulses are used to launch optical excitations on different nanostructures. The excitations are confined below the diffraction limit and propagate along the nanostructures.
Fundamental properties of these ultrashort optical near fields are determined by characterizing the far-field emission after propagation with a setup developed for this task. Furthermore, control of the nanooptical excitations' spatial and temporal evolution is demonstrated for a designed nanostructure.In dieser Arbeit werden Femtosekunden-Laserpulse verwendet, um optische Moden auf verschiedenen Nanostrukturen anzuregen. Die optische Energie ist dabei unterhalb des Beugungslimits lokalisiert und die Anregungen propagieren entlang der Nanostrukturen.
Grundlegende Eigenschaften dieser ultrakurzen optischen Nahfelder werden durch die Charakterisierung der Fernfeld-Emission nach der Propagation bestimmt. Dabei wird eine Messmethode verwendet die eigens für diese Aufgabe entwickelt wurde. Darüber hinaus wird die Steuerung der räumlichen und zeitlichen Entwicklung der nanooptischen Anregungen auf einer für diesen Zweck entworfenen Nanostruktur demonstriert