Exotic attractors of the non-equilibrium Rabi-Hubbard model

We explore the phase diagram of the dissipative Rabi-Hubbard model, as could be realized by a Raman-pumping scheme applied to a coupled cavity array. There exist various exotic attractors, including ferroelectric, antiferroelectric, and inccomensurate fixed points, as well as regions of persistent oscillations. Many of these features can be understood analytically by truncating to the two lowest lying states of the Rabi model on each site. We also show that these features survive beyond mean-field, using Matrix Product Operator simulations.Comment: 5pages, 3 figures, plus supplementary material. Final version, as publishe

Excitations of optically driven atomic condensate in a cavity: theory of photodetection measurements

Recent experiments have demonstrated an open system realization of the Dicke quantum phase transition in the motional degrees of freedom of an optically driven Bose-Einstein condensate in a cavity. Relevant collective excitations of this light-matter system are polaritonic in nature, allowing access to the quantum critical behavior of the Dicke model through light leaking out of the cavity. This opens the path to using photodetection based quantum optical techniques to study the dynamics and excitations of this elementary quantum critical system. We first discuss the photon flux observed at the cavity face and find that it displays a different scaling law near criticality than that obtained from the mean field theory for the equivalent closed system. Next, we study the second order correlation measurements of photons leaking out of the cavity. Finally, we discuss a modulation technique that directly captures the softening of polaritonic excitations. Our analysis takes into account the effect of the finite size of the system which may result in an effective symmetry breaking term.Comment: 18 pages, 5 figure

Refined karyotype-based prognostic stratification of chronic lymphocytic leukemia with a low- and very-low-risk genetic profile

non applicabile, non è previsto abstract

NATURAL AND WASTE MATERIALS AS ADSORBENTS IN OIL POLLUTION MANAGEMENT

In this research, oil pollution management using natural and waste materials as adsorbents was studied. Most of the oil based industries emit oily wastewater rich in heavy oil particles. Therefore, this study was mainly focused to investigate a solution to the oily wastewater. Oil pollution management was achieved in two ways as oil recovery and oil treating using two different adsorbents in two stages. In recovery stage, human hair was used as the adsorbent and experiments were carried out in two ways; as batch wise using hair pieces and continuously using a belt skimmer. Experiments revealed that human hair can recover 70.5% of oil from oily water and 1.35 mL of oil was recovered per gram of hair. The skimmer belt was prepared using human hair and the unit was used for continuous oil recovery. Skimmer Experiments showed that 75% of oil recovery after 30 rotations of the belt. The dissolved and emulsified oil amount in wastewater was not reduced in recovery section. Therefore, in treatment stage, treating the dissolved and emulsified oil is the main objective and adsorption of oil onto carbonized rice husk was studied. Though carbonized rice husk was the main adsorbent in treatment stage other adsorbents, raw rice husk and saw dust, were also tested. The optimum carbonization temperature, 600°C and optimum carbonization period, 3 hours were used to prepare the carbonized rice husk. Batch experiments showed that carbonized rice husk has capability to adsorb 84% of dissolved and emulsified oil from aqueous solutions within 30 minutes when adsorbent dosage is 5g/L. Batch experiments were examined in detail for carbonized rice husk to determine the factors affecting the oil adsorption. Experiments showed that Initial solution pH, initial oil concentration, contact time, adsorbent dosage and particle size affect on oil adsorption. The adsorption kinetics of oil onto carbonized rice husk followed second order kinetic model confirming the chemisorption of oil particles onto carbonized rice husk and equilibrium data were satisfactorily fitted to Langmuir isotherm confirming monolayer oil adsorption onto the carbonized rice husk. Monolayer oil adsorption capacity of 2.24 mg of oil/ g of carbonized rice husk was observed. Tests on oily wastewater samples from a service station showed that combination of these two units can be used effectively for treating the oily wastewater. Key words: Oily wastewater, human hair, rice husk, oil recovery, oil adsorptio