Quantum whistling in superfluid 4He

Fundamental considerations predict that macroscopic quantum systems such as superfluids and the electrons in superconductors will exhibit oscillatory motion when pushed through a small constriction. Here we report the observation of these oscillations between two reservoirs of superfluid 4He partitioned by an array of nanometer-sized apertures. They obey the Josephson frequency equation and are coherent amongst all the apertures. This discovery at the relatively high temperature of 2K (2000 times higher than related phenomena in 3He) may pave the way for a new class of practical rotation sensors of unprecedented precision.Comment: 6 pages, 3 figures, to be published in Natur

Realization of a single Josephson junction for Bose-Einstein condensates

We report on the realization of a double-well potential for Rubidium-87 Bose-Einstein condensates. The experimental setup allows the investigation of two different dynamical phenomena known for this system - Josephson oscillations and self-trapping. We give a detailed discussion of the experimental setup and the methods used for calibrating the relevant parameters. We compare our experimental findings with the predictions of an extended two-mode model and find quantitative agreement

Elevated miR-499 Levels Blunt the Cardiac Stress Response

The heart responds to myriad stresses by well-described transcriptional responses that involve long-term changes in gene expression as well as more immediate, transient adaptations. MicroRNAs quantitatively regulate mRNAs and thus may affect the cardiac transcriptional output and cardiac function. Here we investigate miR-499, a microRNA embedded within a ventricular-specific myosin heavy chain gene, which is expressed in heart and skeletal muscle.We assessed miR-499 expression in human tissue to confirm its potential relevance to human cardiac gene regulation. Using a transgenic mouse model, we found that elevated miR-499 levels caused cellular hypertrophy and cardiac dysfunction in a dose-dependent manner. Global gene expression profiling revealed altered levels of the immediate early stress response genes (Egr1, Egr2 and Fos), ß-myosin heavy chain (Myh7), and skeletal muscle actin (Acta1). We verified the effect of miR-499 on the immediate early response genes by miR-499 gain- and loss-of-function in vitro. Consistent with a role for miR-499 in blunting the response to cardiac stress, asymptomatic miR-499-expressing mice had an impaired response to pressure overload and accentuated cardiac dysfunction.Elevated miR-499 levels affect cardiac gene expression and predispose to cardiac stress-induced dysfunction. miR-499 may titrate the cardiac response to stress in part by regulating the immediate early gene response

Altered mRNA expression of genes related to nerve cell activity in the fracture callus of older rats: A randomized, controlled, microarray study

BACKGROUND: The time required for radiographic union following femoral fracture increases with age in both humans and rats for unknown reasons. Since abnormalities in fracture innervation will slow skeletal healing, we explored whether abnormal mRNA expression of genes related to nerve cell activity in the older rats was associated with the slowing of skeletal repair. METHODS: Simple, transverse, mid-shaft, femoral fractures with intramedullary rod fixation were induced in anaesthetized female Sprague-Dawley rats at 6, 26, and 52 weeks of age. At 0, 0.4, 1, 2, 4, and 6 weeks after fracture, a bony segment, one-third the length of the femur, centered on the fracture site, including the external callus, cortical bone, and marrow elements, was harvested. cRNA was prepared and hybridized to 54 Affymetrix U34A microarrays (3/age/time point). RESULTS: The mRNA levels of 62 genes related to neural function were affected by fracture. Of the total, 38 genes were altered by fracture to a similar extent at the three ages. In contrast, eight neural genes showed prolonged down-regulation in the older rats compared to the more rapid return to pre-fracture levels in younger rats. Seven genes were up-regulated by fracture more in the younger rats than in the older rats, while nine genes were up-regulated more in the older rats than in the younger. CONCLUSIONS: mRNA of 24 nerve-related genes responded differently to fracture in older rats compared to young rats. This differential expression may reflect altered cell function at the fracture site that may be causally related to the slowing of fracture healing with age or may be an effect of the delayed healing

PERFORMANCE ANALYSIS OF A SOLAR CONCRETE COLLECTOR

This article presents a transient analysis of solar concrete collectors used for providing domestic hot water. A mathematical model has been developed to estimate the performance of such collectors. This involves the solution of the two-dimensional time-dependent heat conduction equation with appropriate initial and boundary conditions. An explicit finite difference technique has been used for the purpose, and calculations have been carried out to validate the model by comparing its predictions with several sets of experimental data. Further, a parametric calculation and sensitivity analysis have been done to study the effect of various values of the governing parameters on the collector performance

PERFORMANCE STUDIES ON SOLAR CONCRETE COLLECTORS

This article presents performance studies on solar concrete collectors used for providing domestic hot water. Although they are less efficient, such collectors integrated with building structures are likely to be more cost effective than conventional flat-plate collectors using metallic absorber plates. The collectors are made up of thin concrete slabs with a network of PVC (polyvinyl chloride) tubes embedded inside the concrete. A layer of galvanized iron wiremesh on either side of the PVC tubes provides the necessary reinforcement to the concrete. The top of the slab in painted black and glazed, while the back insulation is made out of autoclave cellular concrete. Collectors with tube spacing varying from 6 to 15 cm have been cast and tested for different flow rates and inlet fluid temperatures. Of the collectors tested, it has been found that the collector with a pitch of 6 cm gives the best performance at a flow rate of 0.02 l/s per square meter of collector absorber area. Typically the daily efficiency of such a collector is about 37% for an inlet temperature of about 50° C, daily solar insolation of 23.8 MJ/m<SUP>2</SUP>and an average ambient temperature of 34° C. The pressure drop across the collector has also been measured and is found to be less than that of a conventional collector. Concrete strength measurements show that the wiremesh reinforcement provides sufficient strength to withstand handling stresses