Asymptotic Freedom from Thermal and Vacuum Magnetization

We calculate the effective Lagrangian for a magnetic field in spinor, scalar and vector QED. Connections are then made to $SU(N_C)$ Yang--Mills theory and QCD. The magnetization and the corresponding effective charge are obtained from the effective Lagrangian. The renormalized vacuum magnetization will depend on the renormalization scale chosen. Regardless of this, the effective charge decreasing with the magnetic field, as in QCD, corresponds to anti- screening and asymptotic freedom. In spinor and scalar QED on the other hand, the effective charge is increasing with the magnetic field, corresponding to screening. Including effects due to finite temperature and density, we comment on the effective charge in a degenerate fermion gas, increasing linearly with the chemical potential. Neglecting the tachyonic mode, we find that in hot QCD the effective charge is decreasing as the inverse temperature, in favor for the formation of a quark-gluon plasma. However, including the real part of the contribution from the tachyonic mode, we find instead an effective charge increasing with the temperature. Including a thermal gluon mass, the effective charge in hot QCD is group invariant (unlike in the two cases above), and decreases logarithmically in accordance to the vacuum renormalization group equation, with the temperature as the momentum scale.Comment: 38 pages. Latex. More sequential treatment of different limits. Thermal gluon mass include

Uncertainty, Climate Change and the Global Economy

The paper illustrates how one may assess our comprehensive uncertainty about the various relations in the entire chain from human activity to climate change. Using a modified version of the RICE model of the global economy and climate, we perform Monte Carlo simulations, where full sets of parameters in the model’s most important equations are drawn randomly from pre-specified distributions, and present results in the forms of fan charts and histograms. Our results suggest that under a Business-As-Usual scenario, the median increase of global mean temperature in 2105 relative to 1900 will be around 4.5 C. The 99 percent confidence interval ranges from 3.0 C to 6.9 C. Uncertainty about socio-economic drivers of climate change lie behind a non-trivial part of this uncertainty about global warming.Climate-economy models; Global warming; Monte Carlo study

Astrobiology and Society in Europe Today

This book describes the state of astrobiology in Europe today and its relation to the European society at large. With contributions from authors in more than 20 countries and over 30 scientific institutions worldwide, the document illustrates the societal implications of astrobiology and the positive contribution that astrobiology can make to European society. The book has two main objectives: 1. It recommends the establishment of a European Astrobiology Institute (EAI) as an answer to a series of challenges relating to astrobiology but also European research, education, and society at large. 2. It also acknowledges the societal implications of astrobiology, and thus the role of the social sciences and humanities in optimizing the positive contribution that astrobiology can make to the lives of the people of Europe and the challenges they face

Helseovervåking i lakseoppdrett : en viktig del av helsestyringen

Mortality represents a major challenge in the salmon farming industry. In Norway the mortality in the marine phase of the salmon production cycle has been 15-20% annually the recent years. This situation is not sustainable for the fish, the farmers or society. To prevent mortality throughout the production cycle, fish-groups at risk of deteriorating health must be identified early, regarding both disease development and stage in the production cycle. Hence, robust population health monitoring methods are needed, which will provide farmers with information to make knowledge-based decisions to improve fish health. The aim of the thesis was to investigate monitoring methods that can be used to improve fish health management in salmon farming. This was approached through four studies investigating mortality patterns, cause-specific mortality classification, gill mucous cell count and gill mucus microbial composition, respectively, as potential factors relevant to monitoring fish health status in salmon farming. Mortality patterns in salmon farming were investigated through a retrospective study of fish-groups from two commercial fish farming companies, describing the cause-specific mortality during the production cycle and investigating sources of variation in mortality between the hatchery, marine farm, and the fish-group. Most of the variation in mortality was attributed to the fish-group. Based on the information from the cause-specific mortality registrations, smolt-related mortality was found to be the major cause of death during the first six months of production, while handling and treatment was the overall dominating cause of death in the full production cycle. However, this varied extensively between the fish-groups. The second study further explored the system of cause-specific mortality and suggested a unique classification code. A system for classifying causes of mortality based on underlying cause was created for salmon farming inspired by the human mortality classification system. The proposed standard has a three-level hierarchical structure of mortality causes. This accommodates different levels of details when mortality causes are registered and enhance the information possible to retrieve from the system. To target early responses of the immune system, variation in gill mucous cell count was studied as a potential method of monitoring health status. Salmon presmolt from six commercial hatcheries was sampled and mucous cells were histologically quantified based on certain criteria. The counts varied among both fish and farms. When “farm” was included as an independent variable in a regression model the proportion of variation in mucous cell counts explained by the model was twice as high compared to when only fish size was included. This indicates that the variation depends on farm-related factors. A subset of the fish (from four recirculating aquaculture system (RAS) facilities) included in the study of mucous cells was also sampled for gill mucus for microbial composition analyses using 16S rRNA gene sequencing. Quantification of extracted bacterial DNA in the gill mucus samples showed low levels in general, but fish from one farm had considerably more bacterial DNA compared to the others. Samples from the same farm were also compositionally different based on beta diversity metrics, compared to the others as one group. Assessed by the Shannon index as an outcome in a regression model, sources of variation attributed most variation to the individual fish, suggesting gill microbial structure was linked to the individual fish. No associations between gill microbial diversity and specific production parameters were detected. In conclusion, cause-specific mortality classification was found to identify important causes of mortality in the production cycle, thus providing farmers with substantial health information with limited effort and at little cost. The tool can further be applied at desired level of detail and adapted to the needs of each farmer. Novel methods of gill mucous cell count and microbial composition identifies variation among farms and individual fish for the different measured parameters. This variation can potentially be exploited to detect early signs of reduced health in the fish. However, further studies are necessary to establish the causal association between these factors and fish health before they can be used in systematic monitoring of health in salmon farming.Dødelighet i oppdrettsnæringen er en stor utfordring i dag. Norsk lakseoppdrett har de siste årene hatt mellom 15 og 20% dødelighet i sjøfasen. Dette er ikke bærekraftig, hverken for fisken, oppdretterne eller samfunnet. For å forebygge dødelighet gjennom produksjonssyklusen må fiskegrupper som har økt risiko for dårligere helse identifiseres tidlig. Derfor er robuste overvåkingsmetoder på populasjonsnivå nødvendige, det vil gi oppdretterne nyttig informasjon for å kunne ta kunnskapsbaserte avgjørelser i arbeidet med å forbedre helsesituasjonen til fisken. Målet med doktorgraden var å undersøke overvåkingsmetoder som kan brukes til å forbedre helsestyringen i oppdrettsnæringen. Dette ble gjort ved å undersøke mulige faktorer som kan gi informasjon om helsestatus, henholdsvis dødelighetsmønster, årsaks-spesifikk dødelighetsklassifisering, slimceller på gjellene og mikrobiell sammensetting på gjellenes slimlag

The development and analysis of a system to measure transient angular velocity

A measuring system was built to provide a D. C. voltage which was proportional to the angular speed of a particular rotating shaft under question. The measuring system developed has a time constant of approximately .00365 seconds. The final measuring system was developed after trying various other means which proved unsatisfactory. The final device developed would be quite satisfactory in a wide variety of applications --Abstract, page ii