Self-organization in cold atomic gases: a synchronization perspective.

13th ICCRTS

Self-organization and self-synchronization represent key capabilities for Edge organizations. However, roughly a century of organizations research indicates that self-organization leads often to a lack of complementary action, or even chaos, and that coherent self-synchronization is extremely difficult to achieve in organizations of the scale and complexity envisioned for Edge operations. Indee...

Theory of radio frequency spectroscopy experiments in ultracold Fermi gases and their relation to photoemission in the cuprates

In this paper we present an overview of radio frequency (RF) spectroscopy in the atomic Fermi superfluids with the ultimate goal of suggesting new directions in the cold gas research agenda from the condensed matter perspective. We review the experimental and theoretical literature on cold gases and the photoemission spectroscopy of the cuprates particularly as it pertains to areas of overlap. ...

Freeze-dried cold kit for preparation of 99mtc-ciprofloxacin as an infection imaging agent

  Introduction: Radiolabeled antibiotics are being used for the specific diagnosis of infection by exploiting their specific binding properties to the bacterial components, thereby making it possible to differentiate infection from sterile lesions. The aim of this work was to prepare and evaluate a freeze-dried kit of ciprofloxacin designed for the labeling with ...

Exploring Flatland with Cold Atomic Gases

Collective atomic recoil laser as a synchronization transition.

We consider here a model previously introduced to describe the collective behavior of an ensemble of cold atoms interacting with a coherent electromagnetic field. The atomic motion along the self-generated spatially periodic force field can be interpreted as the rotation of a phase oscillator. This suggests a relationship with synchronization transitions occurring in globally coupled rotators. ...