118,012 research outputs found

    World War I record of service for Frederic V. Hemenway, compiled approximately 1922-1926.

    No full text
    Questionnaire with information about Frederic Vinton Hemenway's service in World War I, 1917-1919, compiled approximately 1922-1926.Compiled or copied by a "Norwich in the World War" committee consisting of Charles N. Barber (chairman), Carl V. Woodbury, K.R.B. Flint, and Gustaf A. Nelson. May have been used in a chapter of "Vermont in the world war, 1917-1919" by Harold P. Sheldon (1928)

    Estimating the baryonic masses of face-on spiral galaxies from stellar kinematics

    No full text
    The kinematic dispersions of disc stars can be used to measure the dynamic contributions of baryons to the rotation curves of spiral galaxies and hence to trace the amount and distribution of the remaining dark matter. However, the simple single-component infinite disc model traditionally used to convert stellar dispersions to mass densities is no longer adequate. The dark matter halo has a significant effect upon the stellar dispersions for any non-maximal disc. The correction for cuspy dark matter haloes is particularly large, suggesting that such models are not consistent with the observed stellar dispersions. When a more realistic model for the vertical gravity of the disc is used, the derived stellar surface densities are generally larger (smaller) for disc radii smaller (larger) than 2.3 times the radial scalelength. When the vertical gravity correction is applied to the radially resolved stellar mass-to-light ratios derived by the DiskMass consortium, the true values are not constant but decrease with radius, as expected from photometric colour gradients, and the true mass scalelengths are about 80 per cent of the photometric scalelengths. The effects of a thin gaseous disc are larger than expected, especially when an allowance is made for optically thick or CO-dark gas. The presence of a thick-disc stellar component has severe consequences, particularly if its radial scalelength is smaller than that of the thin disc, as it appears to be in the Milky Way

    Optimising optimal image subtraction

    No full text
    Difference imaging is a technique for obtaining precise relative photometry of variable sources in crowded stellar fields and, as such, constitutes a crucial part of the data reduction pipeline in surveys for microlensing events or transiting extra-solar planets. The Optimal Image Subtraction (OIS) algorithm of Alard & Lupton (1998) permits the accurate differencing of images by determining convolution kernels which, when applied to reference images with particularly good seeing and signal-to-noise (SIN), provide excellent matches to the point-spread functions (PSF) in other images of the time series to be analysed. The convolution kernels are built as linear combinations of a set of basis functions, conventionally bivariate Gaussians modulated by polynomials. The kernel parameters, mainly the widths and maximal degrees of the basis function model, must be supplied by the user. Ideally, the parameters should be matched to the PSF, pixel-sampling, and SIN of the data set or individual images to be analysed. We have studied the dependence of the reduction outcome as a function of the kernel parameters using our new implementation of OIS within the IDL-based TRIPP package. From the analysis of noise-free PSF simulations of both single objects and crowded fields, as well as the test images in the ISIS OIS software package, we derive qualitative and quantitative relations between the kernel parameters and the success of the subtraction as a function of the PSF widths and sampling in reference and data images and compare the results to those of other implementations found in the literature. On the basis of these simulations, we provide recommended parameters for data sets with different SIN and sampling. (c) 2007 WILEY-VCH Verlag GmbH & Co. KGaA, Weinhei

    RTML: remote telescope markup language and you

    No full text
    In order to coordinate the use of robotic and remotely operated telescopes in networks-like Gottingen's MOnitoring NEtwork of Telescopes (MONET)-a standard format for the exchange of observing requests and reports is needed. I describe the benefits of Remote Telescope Markup Language (RTML), an XML-based protocol originally developed by the Hands-On Universe Project, which is being used and further developed by several robotic telescope projects and firms

    RTML: remote telescope markup language and you

    No full text
    In order to coordinate the use of robotic and remotely operated telescopes in networks-like Gottingen's MOnitoring NEtwork of Telescopes (MONET)-a standard format for the exchange of observing requests and reports is needed. I describe the benefits of Remote Telescope Markup Language (RTML), an XML-based protocol originally developed by the Hands-On Universe Project, which is being used and further developed by several robotic telescope projects and firms

    Prospects for a global heterogeneous telescope network (HTN)

    No full text
    The goal of this meeting is to make real progress towards the creation of a global, heterogeneous network of telescopes (HTN). The purpose of this introductory talk is to set the stage for several days of discussion about how we might create such a network. I describe the generic structure of an HTN, the roles of the necessary components, describe the interfaces needed, and discuss the management problems, and the need for a market model. (c) 2006 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim

    Remote telescope markup language (RTML)

    No full text
    Remote Telescope Markup Language (RTML) is an XML-based document format for the generic description of astronomical observation requests. The latest versions (3.x) constitute a substantial modification of the previous published standard (RTML 2.1), incorporating a highly restructured syntax and many new features necessary in order to permit the use of RTML to organize and operate heterogeneous networks of telescopes with complex instruments and to assist both the users and the servers in the preparation, modification, and execution of remote observing requests. (c) 2006 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim

    The symptoms and causes of CV low-states

    No full text
    I present recent results on the symptoms and causes of extended photometric low-states seen in a large fraction of cataclysmic variables and particularly well in AM Her stars. The most likely cause of low-states - stellar starspots on the secondary stars appearing at the L-1-point - implies that the light curves of AM Her stars can be used to constrain the spottedness of the secondaries. Using the AAVSO light and a flux-dependent bolometric correction, a statistical model for the spots near the L-1-point of AM Her itself is derived. The implied density of spots can only be explained if the spottedness of the L-1-point is unusual, for instance if the observed prominences are forced to wandering down the Roche potential towards the L-1-point. The polar results can be easily applied to VY Sd low-states if the latter stars contain hot whits dwarfs: the irradiated discs can be rapidly drained of material, preventing the occurrence of dwarf nova eruptions during near total cessations of mass-transfer. (C) 2000 Elsevier Science B.V. All rights reserved
    corecore