Pressure coefficients of Raman modes of carbon nanotubes resolved by chirality: Environmental effect on graphene sheet

Studies of the mechanical properties of single-walled carbon nanotubes are hindered by the availability only of ensembles of tubes with a range of diameters. Tunable Raman excitation spectroscopy picks out identifiable tubes. Under high pressure, the radial breathing mode shows a strong environmental effect shown here to be largely independent of the nature of the environment . For the G-mode, the pressure coefficient varies with diameter consistent with the thick-wall tube model. However, results show an unexpectedly strong environmental effect on the pressure coefficients. Reappraisal of data for graphene and graphite gives the G-mode Grueuneisen parameter gamma = 1.34 and the shear deformation parameter beta = 1.34.Comment: Submitted to Physical Review

The acute effect of ‘breaking-up’ prolonged sitting on cardiovascular risk factors in overweight/obese adults

Session - Physical activity and cardiovascular disease in adults: paper no. 562This journal suppl. entitled: Be Avtive 2012INTRODUCTION: We have recently shown in a controlled laboratory setting that regularly ‘breaking up’ prolonged sitting with frequent short bouts of light-or moderate-intensity walking activity acutely lowers postprandial blood glucose and insulin concentrations. However, we are yet to report the effect of interrupting sitting time on secondary outcomes relating to cardiovascular disease. Consequently, we compared the effect of a single prolonged (7-hour) bout of sitting with a similar duration of sitting combined with intermittent bouts of light-intensity or moderate-intensity activity on blood pressure, blood lipids and CRP. METHODS: Overweight/obese adults (n=19; age range 45–65 yrs) were recruited for a randomized three-week, three-treatment acute cross-over trial: 1) uninterrupted sitting; 2) seated with 2-minute bouts of light-intensity walking at 3.2 km/hr every 20 minutes; and 3) seated with 2-minute bouts of moderate-intensity walking at between 5.8–6.4 km/hr every 20 minutes. Following the completion of baseline measurements and an initial 2 hour steady-state period, participants consumed a standard test meal (75 g glucose, 50 g fat). Serum triglycerides were assessed hourly to calculate the incremental area under the curve (iAUC) and high sensitivity C-reactive protein (hsCRP) was assessed at baseline and 7 hours. Seated brachial artery blood pressure was also measured every hour as a single measurement, 5 mins prior to each activity bout, with an automated oscillometric blood pressure monitor (Philips SureSigns VS3 Monitor). GEE models were adjusted for sex, age, BMI, fasting blood pressure and treatment order. RESULTS: Systolic blood pressure decreased similarly and significantly during the light and moderate-intensity activity conditions [light: 120±4mmHg (hourly mean±SEM), p=0.002; moderate: 120±3mmHg, p=0.02] compared to uninterrupted sitting (125±4mmHg). Diastolic blood pressure was also significantly reduced with both activity conditions (light: 78±3mmHg, p=0.006; moderate: 78±3mmHg, p=0.03) compared to uninterrupted sitting (79±3mmHg). No significant group differences were observed in triglyceride iAUC, hsCRP and the hourly measurement of heart rate. DISCUSSION: These findings indicate that breaking up prolonged sitting with frequent short breaks of either light or moderate-intensity physical activity may have favourable effects on seated blood pressure. Further studies are needed to evaluate the chronic effects of breaking up sedentary time on cardiovascular disease risk factors and the feasibility of such strategies in the general community

Nonlinear Optics and Quantum Entanglement of Ultra-Slow Single Photons

Two light pulses propagating with ultra-slow group velocities in a coherently prepared atomic gas exhibit dissipation-free nonlinear coupling of an unprecedented strength. This enables a single-photon pulse to coherently control or manipulate the quantum state of the other. Processes of this kind result in generation of entangled states of radiation field and open up new prospectives for quantum information processing