Detrimental Increase of Spin-Phonon Coupling in Molecular Qubits on Substrates.

Molecular qubits are a promising platform for quantum information systems. Although single molecule and ensemble studies have assessed the performance of = 1/2 molecules, it is understood that to function in devices, regular arrays of addressable qubits supported by a substrate are needed. The substrate imposes mechanical and electronic boundary conditions on the molecule; however, the impact of these effects on spin-lattice relaxation times is not well understood.

Chemical control of spin-lattice relaxation to discover a room temperature molecular qubit.

The second quantum revolution harnesses exquisite quantum control for a slate of diverse applications including sensing, communication, and computation. Of the many candidates for building quantum systems, molecules offer both tunability and specificity, but the principles to enable high temperature operation are not well established. Spin-lattice relaxation, represented by the time constant , is the primary factor dictating the high temperature performance of quantum bits (qubits), and serves as the upper limit on qubit coherence times ( ).

Disability Determination Under Social Security: Increasing Rates of Approval.

Supplemental security income (SSI), is the lifeline for our patients living in the community. Absent disability benefits most of our patients are homeless. Many will be hungry, poorly clothed, and have only rudimentary health care.

Diagnostic efficiency of the Iowa personality disorder screen items in a nonclinical sample.

The diagnostic efficiency of the 11-item Iowa Personality Disorder Screen (IPDS; Langbehn et al., 1999) was evaluated in a nonclinical sample of young adults, 35% of whom met DSM-III-R criteria for a personality disorder, in a retrospective analysis of SIDP-R data. Results indicated that two IPDS item sets (i.

Alteration of pulmonary macrophage intracellular pH following inhalation exposure to sulfuric acid/ozone mixtures.

Recent studies have demonstrated that additive and synergistic effects on rabbit pulmonary macrophages (PM phi) function can occur after combined exposures to acid aerosols and ozone. This study investigated intracellular pH (pHi) homeostasis and H+ extrusion mechanisms of PM phi from rabbits exposed to sulfuric acid, ozone, and their mixtures. Animals were exposed for 3 h to 125 micrograms/m3 sulfuric acid, 0.

Alteration of pulmonary macrophage intracellular pH regulation by sulfuric acid aerosol exposures.

In vivo exposure to sulfuric acid aerosols produces profound effects on pulmonary macrophage (PM phi) phagocytic function and cytokine release and perturbs intracellular pH (pHi) homeostasis. Because pHi influences a multitude of cellular processes, we sought to investigate the mechanism by which acid aerosol exposure affects its regulation. Guinea pigs underwent a single or 5 repeated 3-hr exposures to sulfuric acid aerosol (969 and 974 micrograms/m3 for single and repeated exposures, respectively).

Pulmonary effects of inhaled zinc oxide in human subjects, guinea pigs, rats, and rabbits.

Occupational exposure to freshly formed zinc oxide (ZnO) particles (less than 1.0 micron aerodynamic diameter) produces a well-characterized response known as metal fume fever. An 8-hr threshold limit value (TLV) of 5 mg/m3 has been established to prevent adverse health effects because of exposure to ZnO fumes.

Airway hyperresponsiveness in guinea pigs exposed to acid-coated ultrafine particles.

Although several epidemiological studies have provided evidence that airborne sulfate particles can produce adverse health effects in susceptible individuals, there is only limited data demonstrating respiratory effects in human volunteers and experimental animals at near ambient concentrations. We have demonstrated previously that the mixing of metal oxide particles with SO2 under humid conditions produces acid-coated particles that are significantly more potent in causing pulmonary function changes than pure acid droplets. The present study examined the nonspecific airway responsiveness to acetylcholine in guinea pigs exposed to acid-coated zinc oxide particles.

Effects of fine and ultrafine sulfuric acid aerosols in guinea pigs: alterations in alveolar macrophage function and intracellular pH.

Acidic sulfate is the most toxicologically important sulfur oxide which exists in the ambient air. To determine if particle size influences toxic effects of sulfuric acid, we investigated the effects of sulfuric acid aerosols of two different sizes on biochemical and cellular parameters of bronchoalveolar lavage fluid from exposed guinea pigs. Guinea pigs were exposed to fine (mass median diameter, 0.

Sulfuric acid-layered ultrafine particles potentiate ozone-induced airway injury.

Urban air pollution in the United States is composed of a complex mixture of particles and gases. Among the most prominent products of the atmospheric pollutants are sulfur oxides and ozone. In this report, we use two exposure protocols to examine the interaction between exposure to these two pollutants.

Pulmonary effects of sulfur oxides on the surface of copper oxide aerosol.

The authors have developed a system that generates copper oxide aerosol similar to the primary emissions from smelters. The surface of the ultrafine copper oxide aerosol is coated with a layer of sulfur oxides consisting of sulfate, S(VI), and sulfite, S(IV). Guinea pigs were exposed to this sulfur oxide layered copper oxide aerosol, and pulmonary mechanical functions were measured by using the Amdur-Mead method.

Pulmonary effects of ultrafine coal fly ash inhaled by guinea pigs.

Guinea pigs were exposed to ultrafine coal fly ash produced in a laboratory furnace. The average mass median aerodynamic diameter and the average mass concentration of Illinois no. 6 fly ash produced in all exposure conditions were 0.

Health effects of air pollutants: sulfuric acid, the old and the new.

Data from exposure of experimental animals and human subjects to sulfuric acid presents a consistent picture of its toxicology. Effects on airway resistance in asthmatic subjects were well predicted by data obtained on guinea pigs. Sulfuric acid increases the irritant response to ozone in both rats and man.

Furnace-generated acid aerosols: speciation and pulmonary effects.

Guinea pigs were exposed to ultrafine aerosols (less than 0.1 micron) of zinc oxide with a surface layer of sulfuric acid. These acid-coated aerosols are typical of primary emissions from smelters and coal combustors.

Changes in pulmonary lavage fluid of guinea pigs exposed to ultrafine zinc oxide with adsorbed sulfuric acid.

Ultrafine metal oxide particles (diameters less than 0.1 microns) and sulfur dioxide are important products of coal combustion. Interaction of these products in the effluent stream results in formation of ultrafine particles with adsorbed sulfur compounds, including sulfuric acid.

Effects of sulfur oxides on eicosanoids.

Ultrafine metal oxides and SO2 react during coal combustion or smelting operations to form primary emissions coated with an acidic SOx layer. Ongoing work in this laboratory has examined the effects of sulfur oxides on pulmonary functions of guinea pigs. We have previously reported that 20 micrograms/m3 acidic sulfur oxide as a surface layer on ultrafine ZnO particles decreases lung volumes, decreases carbon monoxide diffusing capacity, and causes lung inflammation in guinea pigs after 4 daily 3-h exposures.

Pulmonary function of guinea pigs exposed to freshly generated ultrafine zinc oxide with and without spike concentrations.

Exposure of guinea pigs 3 hr/day for 5 consecutive days to freshly formed ultrafine zinc oxide (ZnO) (count median diameter: 0.05 micron; geometric standard deviation: 2.0) at a concentration of 7 mg/m3 produced a gradual decrease in total lung capacity and vital capacity over the course of the exposure period.

Copper oxide aerosol: generation and characterization.

Effluent gases from high temperature systems such as fossil fuel combustion and pyrometallurgical processes contain inorganic material which has the potential to interact with sulfur dioxide (SO2) on the surface of particles to form an irritant aerosol. The submicron fraction of this inorganic material is especially important as the fine particles may penetrate deep into the lung and cause serious health effects. A laboratory furnace was designed to produce a submicrometer copper oxide aerosol to stimulate emissions from copper smelters and other pyrometallurgical operations.

Indomethacin and cromolyn sodium alter ozone-induced changes in lung function and plasma eicosanoid concentrations in guinea pigs.

Male Hartley guinea pigs were given either indomethacin (IN), cromolyn sodium (CS), or no drug (ND) and then exposed either to filtered air or to 1 ppm ozone (O3) for 1 hr. At 2 or 24 hr postexposure, ventilation, respiratory mechanics, lung volumes, carbon monoxide-diffusing capacity (DLCO), and alveolar volume (VA) were measured, and in separate groups of animals, plasma eicosanoids (EC) were measured. Both drugs blocked the increase in flow resistance noted at 2 hr after O3 and prevented O3-induced increases in the wet lung weight to body weight ratio seen at 2 and 24 hr in the ND group.

Lung injury in guinea pigs caused by multiple exposures to ultrafine zinc oxide: changes in pulmonary lavage fluid.

Metal oxide particles with diameters of less than 0.1 micron (ultrafine particles) are important products of fossil fuel combustion. Pulmonary lavage fluid was obtained from guinea pigs given 1, 2, or 3 consecutive, daily, 3-h, nose-only exposures to 0, 2.

Functional changes in the lungs of guinea pigs exposed to sodium sulfite aerosols.

Guinea pigs were exposed head only for 1 hr to submicrometer sodium sulfite aerosols (mass median aerodynamic diameter = 0.36 micron, sigma g = 2.96) at 474, 669, and 972 micrograms SO3(2-)/m3.