Dein Suchergebnis zum Thema: Vakuum

Experimental research in our labs over the past couple of years centered on development of quantum light sources that amplify quantum fluctuations to a macroscopic level. More and more, we explore the remarkable consequences of those strong quantum fluctuations and realized that phenomena we observe have a close link to others found in fields such as economics, geology, and biology, and which are known as power laws and Pareto principle. Currently, we explore the origins of those analogies—in particular the relationship to so-called rogue waves—and try to understand to what extent we can simulate those phenomena with our laboratory system.
Man nennt dieses Quantenlicht auch helles, gequetschtes Vakuum.

Experimental research in our labs over the past couple of years centered on development of quantum light sources that amplify quantum fluctuations to a macroscopic level. More and more, we explore the remarkable consequences of those strong quantum fluctuations and realized that phenomena we observe have a close link to others found in fields such as economics, geology, and biology, and which are known as power laws and Pareto principle. Currently, we explore the origins of those analogies—in particular the relationship to so-called rogue waves—and try to understand to what extent we can simulate those phenomena with our laboratory system.
Man nennt dieses Quantenlicht auch helles, gequetschtes Vakuum.

Experimental research in our labs over the past couple of years centered on development of quantum light sources that amplify quantum fluctuations to a macroscopic level. More and more, we explore the remarkable consequences of those strong quantum fluctuations and realized that phenomena we observe have a close link to others found in fields such as economics, geology, and biology, and which are known as power laws and Pareto principle. Currently, we explore the origins of those analogies—in particular the relationship to so-called rogue waves—and try to understand to what extent we can simulate those phenomena with our laboratory system.
Man nennt dieses Quantenlicht auch helles, gequetschtes Vakuum.

Experimental research in our labs over the past couple of years centered on development of quantum light sources that amplify quantum fluctuations to a macroscopic level. More and more, we explore the remarkable consequences of those strong quantum fluctuations and realized that phenomena we observe have a close link to others found in fields such as economics, geology, and biology, and which are known as power laws and Pareto principle. Currently, we explore the origins of those analogies—in particular the relationship to so-called rogue waves—and try to understand to what extent we can simulate those phenomena with our laboratory system.
Man nennt dieses Quantenlicht auch helles, gequetschtes Vakuum.

Experimental research in our labs over the past couple of years centered on development of quantum light sources that amplify quantum fluctuations to a macroscopic level. More and more, we explore the remarkable consequences of those strong quantum fluctuations and realized that phenomena we observe have a close link to others found in fields such as economics, geology, and biology, and which are known as power laws and Pareto principle. Currently, we explore the origins of those analogies—in particular the relationship to so-called rogue waves—and try to understand to what extent we can simulate those phenomena with our laboratory system.
Russia Deutsch Max-Planck-Gesellschaft Homepage Newsroom Was das Vakuum

Dies ermöglicht die Deposition auf Oberflächen im Vakuum und damit deren atomar aufgelöste
Wiederum ist dafür ein Versuchsaufbau im Vakuum notwendig, da nur der ungehinderte

Dies ermöglicht die Deposition auf Oberflächen im Vakuum und damit deren atomar aufgelöste
Wiederum ist dafür ein Versuchsaufbau im Vakuum notwendig, da nur der ungehinderte

Dies ermöglicht die Deposition auf Oberflächen im Vakuum und damit deren atomar aufgelöste
Wiederum ist dafür ein Versuchsaufbau im Vakuum notwendig, da nur der ungehinderte

Dies ermöglicht die Deposition auf Oberflächen im Vakuum und damit deren atomar aufgelöste
Wiederum ist dafür ein Versuchsaufbau im Vakuum notwendig, da nur der ungehinderte

Max-Planck-Forscher schlagen ein Konzept vor, um mit Laserstrahlen einen Doppelspalt zu erzeugen
Das tun sie mithilfe sogenannter Quantenfluktuationen im Vakuum: Das Vakuum ist nämlich