Einstein-Podolsky-Rosen correlations from colliding Bose-Einstein condensates

We propose an experiment which can demonstrate quantum correlations in a physical scenario as discussed in the seminal work of Einstein, Podolsky and Rosen. Momentum-entangled massive particles are produced via the four-wave mixing process of two colliding Bose-Einstein condensates. The particles' quantum correlations can be shown in a double double-slit experiment or via ghost interference.Comment: 5 pages, 5 figures, published versio

Metastable-Helium-4 source for cold atom experiments

Nicht angegeben.This thesis presents a first step on the way towards a metastable helium BEC. This kind of experiment requires a high-flux source with a low peak velocity. In the scope of the Master’s Thesis, the source of metastable helium atoms was built and characterised. In addition, the atomic beam was collimated and deflected, in order to increase its intensity. The intensity of the metastable helium beam was measured to be approximately 1-8*10E14 atoms per steradian per second. At the same time the peak velocity ranged between 650-1050 m/s. The increase in the intensity of the atomic beam was achieved by a 2D collimation with laser light right after the skimmer. This enabled us to gain twenty-six-fold in the number of atoms per second per steradian

Magnetometry Based on Nonlinear Magneto-Optical Rotation with Amplitude-Modulated Light

We report on an all-optical magnetometric technique based on nonlinear magneto-optical rotation with amplitude-modulated light. The method enables sensitive magnetic-field measurements in a broad dynamic range. We demonstrate the sensitivity of $4.3\times10^{-9}$ G/$\sqrt{\text{Hz}}$ at 10 mG and the magnetic field tracking in a range of 40 mG. The fundamental limits of the method sensitivity and factors determining current performance of the magnetometer are discussed.Comment: Submitted to Journal of Applied Physics 8 pages, 8 figure

Methodology for System Adaptation based on Characteristic Patterns

This paper describes the methodology for system description and application so that the system can be managed using real time system adaptation. Here, we propose approaches relying on machine learning methods, which would enable to characterize key patterns and detect them in real time and in their altered form as well. Then, based on the pattern recognized, it is possible to apply a suitable intervention to system inputs so that the system responds in the desired way. Our aim is to develop and apply a hybrid approach based on machine learning methods, particularly based on soft-computing methods to identify patterns successfully and for the subsequent adaptation of the system. The main goal of the paper is to recognize important pattern and adapt the system?s behaviour based on the pattern desired way.P(ED2.1.00/03.0089), P(GA102/09/1680), S, Z(MSM7088352101

Presentation of the ISRM mine closure state of the art report

International audienceIn 2005, Prof. Nielen Van der Merwe, at that time President of the ISRM, initiated a commission to facilitate the constitution of an international network of experts involved in mine closure and post-mining management. Eight experts coming from different countries have been deeply involved in this ISRM 'mine closure commission', for four years. Closure of mining operations does not lead to the complete elimination of risks likely to affect the surface above old mine workings. Therefore, disorders potentially harmful for people and goods may develop, sometimes just after the closure but also, in some cases, long time after. The first mandate of the commission has been dedicated to the elaboration of a state-ofthe- art report presenting, at an international scale, the mine closure problem (context, main risks of disorders, major hazard assessment methods and treatment techniques). The present paper presents an outline of this ISRM report that members may download on the ISRM website

All-optical atomic magnetometers based on nonlinear magneto-optical rotation with amplitude modulated light

We demonstrate a magnetometric technique based on nonlinear magneto-optical rotation using amplitude modulated light. The magnetometers can be operated in either open-loop (typical nonlinear magneto-optical rotation with amplitude-modulated light) or closed-loop (self-oscillating) modes. The latter mode is particularly well suited for conditions where the magnetic field is changing by large amounts over a relatively short timescale.Comment: 8 pages, 6 figures, Submitted to Proc. of SPIE, Proceedings of XIVth International School on Quantum Electronics, Sunny Beach, Bulgaria 200