Automation Potential and Artificial Intelligence

This Fact Sheet highlights the automation potential in the Mountain West states (Nevada, Utah, Arizona, New Mexico, and Colorado) and its metropolitan statistical areas using the findings of Automation and Artificial Intelligence: How machines are affecting people and places, a report by the Brookings Institution

Economic Growth in Mountain West Metropolitan Areas

This Fact Sheet highlights trends in America’s economic progress, demonstrating how four metropolitan statistical areas (MSAs) in the Mountain West region (Salt Lake City, Phoenix-Mesa-Scottsdale, Las Vegas-Henderson-Paradise, and Denver-Aurora-Lakewood) fared from 2016 to 2017 and from 2007 to 2017 compared to the national economy and the 100 largest metropolitan economies

The Urban Heat Island Effect in Nevada

This fact sheet explores the temperature difference between Nevada cities and their undeveloped surrounding areas using reports by the Urban Land Institute, Climate Central, National Public Radio (NPR), and various governmental organizations. We investigate what “urban heat islands” are, their effects, the correlation between heat and income, and factors that contribute to rising temperatures in Las Vegas, North Las Vegas, Henderson, and Reno

Interaction between Mu and Delta Opioid Receptor Agonists in an Assay of Capsaicin-Induced Thermal Allodynia in Rhesus Monkeys

Delta opioid agonists enhance antinociceptive effects of mu-opioid agonists in many preclinical assays of acute nociception, but delta/mu interactions in preclinical models of inflammation-associated pain have not been examined. This study examined interactions between the delta agonist SNC80 [(+)-4-[(αR)-α-((2S,5R)-4-allyl-2,5-dimethyl-1-piperazinyl)-3-methoxybenzyl]-N,N-diethylbenzamide] and the mu agonist analgesics methadone, morphine, and nalbuphine in an assay of capsaicin-induced thermal allodynia in rhesus monkeys. Thermal allodynia was produced by topical application of capsaicin to the tail. Antiallodynic effects of methadone, morphine, and nalbuphine were evaluated alone or in combination with fixed proportions of SNC80 identical to proportions previously shown to enhance acute thermal antinociceptive effects of these mu agonists in rhesus monkeys (0.9 : 1 SNC80/methadone; 0.29 : 1 SNC80/morphine; 3.6 : 1 SNC80/nalbuphine). Methadone, morphine, and nalbuphine each produced dose-dependent antiallodynia. SNC80 produced partial antiallodynia up to the highest dose tested (5.6 mg/kg). SNC80 produced a modest, enantioselective, and naltrindole-reversible enhancement of methadone-induced antiallodynia. However, SNC80 did not enhance morphine antiallodynia and only weakly enhanced nalbuphine antiallodynia. Overall, SNC80 produced modest or no enhancement of the antiallodynic effects of the three mu agonists evaluated. These results suggest that delta agonist-induced enhancement of mu agonist antiallodynia may be weaker and less reliable than previously demonstrated enhancement of mu agonist acute thermal nociception

Job Density in the Mountain West

This Fact Sheet highlights the job density patterns in large metropolitan statistical areas (MSAs) in the Mountain West states (Nevada, Utah, Arizona, New Mexico, and Colorado) using the findings of Where Jobs are Concentrating and Why it Matters to Cities and Regions, a report by Chad Shearer, Jennifer S. Vey, and Joanne Kim of the Brookings Institution

Economic Segregation, Inequality, and the New Urban Crisis in the Mountain West

This fact sheet highlights economic segregation, inequality, and the effect of the “New Urban Crisis” in the Mountain West region (Nevada, Arizona, New Mexico, Colorado, and Utah) as computed and analyzed by Richard Florida in The New Urban Crisis: How Our Cities are Increasing Inequality, Deepening Segregation, and Failing the Middle Class- and What We Can Do About it

COVID-19: Hospital and Intensive Care Unit (ICU) Bed Capacity in the Mountain West

Utilizing the Harvard Global Health Institute’s (HGHI) COVID-19 projections, this fact sheet examines the potential hospital and ICU bed shortages in the Mountain West region: Arizona, Colorado, New Mexico, Nevada, and Utah

Identification of Native Defects (Vacancies and Antisites) in CdSiP2 Crystals

Electron paramagnetic resonance (EPR) is used to identify four native defects in single crystals of CdSiP2. This nonlinear optical material is used in optical parametric oscillators to generate tunable output in the mid-infrared. The performance of these frequency-conversion devices is limited when infrared absorption bands associated with native defects overlap a pump wavelength. Cadmium, silicon, and phosphorus vacancies and also silicon-on-cadmium antisites are present in the as-grown undoped CdSiP2 crystals. Using near-band-edge 632.8 nm light from a He-Ne laser, a paramagnetic charge state, and thus an EPR spectrum, is formed at liquid-helium temperatures for three of the four defects. The EPR spectrum from the singly ionized silicon vacancy (V-Si) is present without light and has five hyperfine lines due to equal interactions with the four neighboring 31P nuclei. In contrast, the photoinduced EPR spectrum from the singly ionized cadmium vacancy (V-Cd) has a three-line hyperfine pattern due to equal interactions with only two of its four neighboring 31P nuclei. The light-induced spectrum from the singly ionized silicon-on-cadmium antisite (Si+Cd) also has a three-line hyperfine pattern, thus indicating that the unpaired spin interacts primarily with only two 31P neighbors. For the neutral phosphorus vacancy (V0P), the unpaired spin is primarily localized on the nearest-neighbor silicon ions and the photoinduced EPR spectrum has no resolved 31P hyperfine interactions. The silicon and cadmium vacancies are acceptors, and the silicon-on-cadmium antisite and the phosphorus vacancy are donors

The human genome: a multifractal analysis

<p>Abstract</p> <p>Background</p> <p>Several studies have shown that genomes can be studied via a multifractal formalism. Recently, we used a multifractal approach to study the genetic information content of the <it>Caenorhabditis elegans </it>genome. Here we investigate the possibility that the human genome shows a similar behavior to that observed in the nematode.</p> <p>Results</p> <p>We report here multifractality in the human genome sequence. This behavior correlates strongly on the presence of Alu elements and to a lesser extent on CpG islands and (G+C) content. In contrast, no or low relationship was found for LINE, MIR, MER, LTRs elements and DNA regions poor in genetic information. Gene function, cluster of orthologous genes, metabolic pathways, and exons tended to increase their frequencies with ranges of multifractality and large gene families were located in genomic regions with varied multifractality. Additionally, a multifractal map and classification for human chromosomes are proposed.</p> <p>Conclusions</p> <p>Based on these findings, we propose a descriptive non-linear model for the structure of the human genome, with some biological implications. This model reveals 1) a multifractal regionalization where many regions coexist that are far from equilibrium and 2) this non-linear organization has significant molecular and medical genetic implications for understanding the role of Alu elements in genome stability and structure of the human genome. Given the role of Alu sequences in gene regulation, genetic diseases, human genetic diversity, adaptation and phylogenetic analyses, these quantifications are especially useful.</p