Anomalous spin-splitting of two-dimensional electrons in an AlAs Quantum Well

We measure the effective Lande g-factor of high-mobility two-dimensional electrons in a modulation-doped AlAs quantum well by tilting the sample in a magnetic field and monitoring the evolution of the magnetoresistance oscillations. The data reveal that |g| = 9.0, which is much enhanced with respect to the reported bulk value of 1.9. Surprisingly, in a large range of magnetic field and Landau level fillings, the value of the enhanced g-factor appears to be constant.Comment: 4 pages, 3 figure

Apparent Metallic Behavior at B = 0 of a two-dimensional electron system in AlAs

We report the observation of metallic-like behavior at low temperatures and zero magnetic field in two dimensional (2D) electrons in an AlAs quantum well. At high densities the resistance of the sample decreases with decreasing temperature, but as the density is reduced the behavior changes to insulating, with the resistance increasing as the temperature is decreased. The effect is similar to that observed in 2D electrons in Si-MOSFETs, and in 2D holes in SiGe and GaAs, and points to the generality of this phenomenon

Magnetic Field Induced Spin Polarization of AlAs Two-dimensional Electrons

Two-dimensional (2D) electrons in an in-plane magnetic field become fully spin polarized above a field B_P, which we can determine from the in-plane magnetoresistance. We perform such measurements in modulation-doped AlAs electron systems, and find that the field B_P increases approximately linearly with 2D electron density. These results imply that the product |g*|m*, where g* is the effective g-factor and m* the effective mass, is a constant essentially independent of density. While the deduced |g*|m* is enhanced relative to its band value by a factor of ~ 4, we see no indication of its divergence as 2D density approaches zero. These observations are at odds with results obtained in Si-MOSFETs, but qualitatively confirm spin polarization studies of 2D GaAs carriers.Comment: 4 pages, 5 figure

Highly anisotropic g-factor of two-dimensional hole systems

Coupling the spin degree of freedom to the anisotropic orbital motion of two-dimensional (2D) hole systems gives rise to a highly anisotropic Zeeman splitting with respect to different orientations of an in-plane magnetic field B relative to the crystal axes. This mechanism has no analogue in the bulk band structure. We obtain good, qualitative agreement between theory and experimental data, taken in GaAs 2D hole systems grown on (113) substrates, showing the anisotropic depopulation of the upper spin subband as a function of in-plane B.Comment: 4 pages, 3 figure

Risk assessment of adding Gasodor S-Free to natural gas

Om te herkennen wanneer te veel aardgas vrijkomt, en zo explosies te voorkomen, wordt er een geurstof aan toegevoegd. De huidige geurstof (tetrahydrothiofeen) bevat zwavel. Om de uitstoot van zwavel naar het milieu verder te verminderen onderzoekt Gasunie Transport Services de mogelijkheid om een andere, zwavelvrije geurstof, toe te voegen: Gasodor S-Free. Vanwege het omvangrijke gebruik van aardgas is het van belang voldoende zicht te hebben op mogelijke risico's van dit product. Het RIVM heeft onvoldoende informatie kunnen vinden om vast te stellen of het gebruik van Gasodor S-Free als geurstof in aardgas veilig is. De zorg bestaat dat dit product allergische reacties kan veroorzaken als het wordt ingeademd. Het gebruik van Gasodor S-Free wordt afgeraden totdat meer duidelijk is over het mogelijke risico op allergische reacties. Het RIVM geeft aanbevelingen voor vervolgonderzoek om het risico op deze reacties beter te kunnen beoordelen. Gasodor S-Free is een mengsel van drie stoffen, voornamelijk ethylacrylaat en methylacrylaat (samen 95 procent of meer), en een kleine fractie 2-ethyl-3-methylpyrazine. Mogelijke gevolgen van de twee hoofdbestanddelen zijn op basis van de huidige kennis niet goed te beoordelen. Bekend is dat ethylacrylaat en methylacrylaat de luchtwegen kunnen irriteren, maar door de lage concentraties worden geen normen overschreden. Ook zijn ze niet kankerverwekkend. Het is bekend dat beide stoffen allergische reacties kunnen veroorzaken bij huidcontact. Vergelijkbare effecten zouden ook kunnen optreden als de stof wordt ingeademd, maar dit kan op basis van de beschikbare informatie niet worden beoordeeld. Over nadelige effecten van de derde stof (2-ethyl-3-methylpyrazine) is onvoldoende informatie beschikbaar om een uitspraak te kunnen doen over mogelijke effecten op mens en milieu.As natural gas is odourless, an odorant is added to detect the release of gas and prevent explosions. The odorant (tetrahydrothiophene) that is currently used contains sulphur. So as not to add to current levels of sulphur in the environment, Gasunie Transport Services has investigated the possibility of adding another sulphur-free fragrance: Gasodor S-Free. Because of the extensive use of natural gas, it is important that the potential risks of this product are thoroughly evaluated. RIVM has not been able to find sufficient information to determine whether the use of Gasodor S-Free as an odorant in natural gas is safe. There is a concern that this product can cause allergic reactions if inhaled. Any application of Gasodor S-Free, therefore, should be discouraged until the possible risk of allergic reactions has been clarified. RIVM provides recommendations about which investigations could be conducted to assess the risk of these reactions more comprehensively. Gasodor S-Free is a mixture of three substances, mainly ethyl acrylate and methyl acrylate (together 95 percent or more), and a small percent of 2-ethyl-3-methylpyrazine. The possible consequences of the two main components cannot be judged properly based on current knowledge. Ethyl acrylate and methyl acrylate are known to irritate the respiratory tract, but the low concentrations in intended use of Gasodor S-Free do not exceed standards. Nor are they carcinogenic. However, it is known that both substances can cause allergic contact dermatitis. Allergic effects could also occur if the substance is inhaled, but this cannot be evaluated based on the available information. There is also insufficient information available on the adverse effects of the third substance (2-ethyl-3-methylpyrazine) for an assessment of the possible effects on humans and the environment to be madeSod

Early risk factors for adolescent antisocial behaviour: an Australian longitudinal study

Objective: This investigation utilizes data from an Australian longitudinal study to identify early risk factors for adolescent antisocial behaviour. Method: Analyses are based on data from the Mater University Study of Pregnancy, an on-going longitudinal investigation of women’s and children’s health and development involving over 8000 participants. Five types of risk factors (child characteristics, perinatal factors, maternal/familial characteristics, maternal pre- and post-natal substance use and parenting practices) were included in analyses and were based on maternal reports, child assessments and medical records. Adolescent antisocial behaviour was measured when children were 14 years old, using the delinquency subscale of the Child Behaviour Checklist. Results: Based on a series of logistic regression models, significant risk factors for adolescent antisocial behaviour included children’s prior problem behaviour (i.e. aggression and attention/restlessness problems at age 5 years) and marital instability, which doubled or tripled the odds of antisocial behaviour. Perinatal factors, maternal substance use, and parenting practices were relatively poor predictors of antisocial behaviour. Conclusions: Few studies have assessed early predictors of antisocial behaviour in Australia and the current results can be used to inform prevention programs that target risk factors likely to lead to problem outcomes for Australian youth

Synaptic proteome changes in a DNA repair deficient Ercc1 mouse model of accelerated aging

Cognitive decline is one of the earliest hallmarks of both normal and pathological brain aging. Here we used Ercc1 mutant mice, which are impaired in multiple DNA repair systems and consequently show accelerated aging and progressive memory deficits, to identify changes in the levels of hippocampal synaptic proteins that potentially underlie these age-dependent deficits. Aged Ercc1 mutant mice show normal gross hippocampal dendritic morphology and synapse numbers, and Ercc1 mutant hippocampal neurons displayed normal outgrowth and synapse formation in vitro. However, using isobaric tag for relative and absolute quantification (iTRAQ) of hippocampal synaptic proteins at two different ages, postnatal days 28 and 112, we observed a progressive decrease in synaptic ionotropic glutamate receptor levels and increased levels of G-proteins and of cell adhesion proteins. These together may cause long-term changes in synapse function. In addition, we observed a downregulation of mitochondrial proteins and concomitant upregulation of Na,K-ATPase subunits, which might compensate for reduced mitochondrial activity. Thus, our findings show that under conditions of apparent intact neuronal connectivity, levels of specific synaptic proteins are already affected during the early stages of DNA damage-induced aging, which might contribute to age-dependent cognitive decline