Simulations of magnetization reversal in FM/AFM bilayers with THz frequency pulses.

It is widely known that antiferromagnets (AFMs) display a high frequency response in the terahertz (THz) range, which opens up the possibility for ultrafast control of their magnetization for next generation data storage and processing applications. However, because the magnetization of the different sublattices cancel, their state is notoriously difficult to read. One way to overcome this is to couple AFMs to ferromagnets-whose state is trivially read via magneto-resistance sensors.

RF ablation of intestinal metaplasia (Barrett esophagus).

Esophageal intestinal metaplasia, otherwise known as Barrett's Esophagus, is a pre-cancerous condition that afflicts over 1 million Americans annually. Barrett's Esophagus is caused by chronic esophageal exposure to stomach acid which can occur in patients afflicted with Gastro Esophageal Reflux Disease (GERD). The lining of the esophagus undergoes a metaplastic change, from normal squamous cell epithelium to columnar cell epithelium.

Complete ablation of esophageal epithelium with a balloon-based bipolar electrode: a phased evaluation in the porcine and in the human esophagus.

Background: The aim of this study was to evaluate the endoscopic and the histologic effects of a balloon-based bipolar radiofrequency electrode for ablation of porcine and human esophageal epithelium.

Methods: All procedures were performed with a balloon-based, bipolar radiofrequency system that creates a circumferential, thin-layer epithelial ablation zone within the esophagus. In Phase I, multiple ablations were created in 10 farm swine, followed by acute euthanasia and histologic assessment for completeness of epithelial removal and ablation depth.