Space astrometry 3: Gaia: scientific rationale, principles, and data analysis

... • also requires solving for satellite attitude (gyros, torque models, etc), as well as instrument calibration terms (evolve only slowly with time), and slit ambiguities • also corrected for aberration and GR light-bending • the efficient solution of the large system of equations was not trivial (Cho ...

DISCOVERY OF HOT SUPERGIANT STARS NEAR THE GALACTIC

... than in the Galactic disk, this may result in the production of a population of Galactic center HMXBs, in excess of the number predicted to exist from population synthesis models (Pfahl et al. 2002). These models are based on uncertain assumptions about the angular momentum lost during the common-en ...

The Hydrogen Ionization Front-Photosphere

... Figure 2: The photospheric density (1/V, where V is the specific volume) at maximum (top) and minimum (bottom) light in the theoretical models. The left panel shows the results from the SMC models with two ML relations. The rights panel show the comparison between the LMC models (open and solid squa ...

Subrahmanyan Chandrasekhar

... The Chandrasekhar Limit and the Fate of Stars In the years 1929 to 1939, when he was aged 18 to 28, Chandrasekhar was intensely interested in the physics of stars – astrophysics. Traveling by ship in 1930 to begin his Ph.D. at Cambridge University, he had calculated a number. In his honor this numbe ...

Word

... fluctuations on different scales. These predictions can in principle be tested and the current "bestbet" (though I wouldn't put money on it) is known as Cold Dark Matter. We can now begin to test directly the growth of density fluctuations in the Universe using our observations of the temperature va ...

Astronomy 112: The Physics of Stars Class 6 Notes: Internal Energy

... and it is a function solely of the type of gas: all monatomic ideal gasses have γa = (3/2 + 1)/(3/2) = 5/3, whether they are degenerate or not. All relativistic gasses have γa = 4/3, whether they are degenerate or not. The adiabatic index is a very useful quantity for know for a gas, because it desc ...

Physical properties of Hα selected star forming galaxies at z ~ 0.84

... In a first step, 239 emission line candidates were selected (once excluded the stars) by their flux excess in the narrow band, showing a J − JC colour excess significance nσ > 2.5 in one or several apertures. Spectroscopic and photometric redshifts were then used to rule out contaminants, either emi ...

Powerpoint for today

... A further distinction for ellipticals and irregulars: ...

Planet

... The RV variations of b Gem taken with 4 telescopes over a time span of 26 years. The solid line represents an orbital solution with Period = 590 days, m sin i = 2.3 MJup. Mass of star = 1.9 x that of sun ...

Stellar Remnants White Dwarfs Neutron Stars

... with mass < 8 Msun v  Most of the mass of a typical star is ejected outward (planetary nebula) v  Remaining core (made of Helium, or Carbon+Oxygen) has a mass M<1.4 Msun (i.e., similar to the mass of our Sun) and a radius roughly like the Earth. ...

Planetary Companions to Evolved Intermediate

... We report on the detection of four extrasolar planets orbiting evolved intermediate-mass stars from a precise Doppler survey of G–K giants at Okayama Astrophysical Observatory. All of the host stars are considered to be formerly early F-type or A-type dwarfs when they were on the main sequence. 14 A ...

Document

... • Molecular Gas Mass as traced by CO emission and the star formation rate in spiral galaxies, LIRGS, ULIRGs and high z molecular galaxies (Early Molecular Galaxies, EMGs) • Dense molecular Gas as traced by HCN emission is a star formation rate indicator. The mass of dense molecular gas is the key to ...

finding north at night

... I US N O I T C E R I YOUR D three methods are bright, The stars used in these clear night within half an a and become visible on before the surrounding hour or so after sunset, constellations appear. le ss (Crux) makes a full circ Because the Southern Cro in n see is it ial Pole (SCP), around the So ...

Determining distances to stars statistically from photometry

... ~ to each volunteer. These work units can take a couple minutes (if integral for a given Q) the work unit is sent to a GPU) or four or more hours (if it goes to a CPU), but it might take minutes, days, or weeks for the likelihood to be returned depending on how much the volunteer is using the comput ...

GALEX UV Light-curves of M-Dwarf Flare Stars: THE FLARING UV

... • The star GJ 3685A is a red dwarf (dM4e) star with a distance of 45 light-years from the Sun • Red dwarfs are only ~ 30% the size of the Sun and are about half as hot. They are the most numerous type of object in our Galaxy and account for ~ 75% of all known stars • Normally GJ 3685A is a very dim ...

The Mass-loss Rate of Red Supergiant

... driven winds around AGB stars and RSGs. The spectral energy distribution of the source can be specified ...

“Missing” Local Group Satellites

... What’s WALLABY Got to Do With It? •  WALLABY: Southern all-sky HI survey, ~4 km/s velocity resolution, 5σ HI detection limit at 1 Mpc ~ 5×104 M •  Skymapper: Southern all-sky optical survey in 6 bandpasses •  The combination of WALLABY and Skymapper will be uniquely well-suited for finding new ...

Star Formation in the Milky Way - HubbleSOURCE

... that a dark cloud should have to collapse on its own from self-gravity dominating internal pressure. ...

poster

... White lines mark out two cores that we identify with a minimum spanning tree (MST) analysis. The dashed white line shows a suggestive way to separate the western core into two parts (North: low stellar density and South: high stellar density). ...

the Scientia Review

... life cycles, but their life spans are much longer. All stars are born from nebulae. Many stars seen from Earth are Main Sequence Stars, which are stars in the middle of their life. Gravity holds together the gases that make up the stars. They have a nuclear fusion process where hydrogen atoms become ...

An Updated Ultraviolet Calibration for the Swift/UVOT

... expected with the measured count rates for the range of stars of different colours showed that there was a problem with the shape of the effective area curves, particularly at the red end for uvm2 and uvw2 and more generally for uvw1. To minimize changes from the ground-based measurements, the uvm2 ...

Slide 1

... Superbubbles, and the Source of Cosmic Rays” 2005, ApJ, 268, 738 Ikeuchi, S. “Evolution of Evolution of Superbubbles” 1998, LNP, 506, 399 Mac Low, M.M. & McCray, R. “Superbubbles in disk galaxies”, 1988, ApJ, 324, 776 Maiz-Apellaniz, J. “The Origin of the Local Bubble” 2001, ApJ, 560, L86 Oey, M.S. ...

Binary Star Systems

... Lie along the same line of sight and look as though they are companions They have no physical proximity to one another Not gravitationally bound Not a binary star system! ...

PowerPoint 프레젠테이션

... independent of the details of EoS as long as they are “soft”. ...

Ch. 18

... • While a nova may reach an absolute magnitude of –8 (about 100,000 Suns)… • a white dwarf supernova attains an absolute magnitude of –19 (10 billion Suns). ...

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Main sequence

In astronomy, the main sequence is a continuous and distinctive band of stars that appears on plots of stellar color versus brightness. These color-magnitude plots are known as Hertzsprung–Russell diagrams after their co-developers, Ejnar Hertzsprung and Henry Norris Russell. Stars on this band are known as main-sequence stars or ""dwarf"" stars.After a star has formed, it generates thermal energy in the dense core region through the nuclear fusion of hydrogen atoms into helium. During this stage of the star's lifetime, it is located along the main sequence at a position determined primarily by its mass, but also based upon its chemical composition and other factors. All main-sequence stars are in hydrostatic equilibrium, where outward thermal pressure from the hot core is balanced by the inward pressure of gravitational collapse from the overlying layers. The strong dependence of the rate of energy generation in the core on the temperature and pressure helps to sustain this balance. Energy generated at the core makes its way to the surface and is radiated away at the photosphere. The energy is carried by either radiation or convection, with the latter occurring in regions with steeper temperature gradients, higher opacity or both.The main sequence is sometimes divided into upper and lower parts, based on the dominant process that a star uses to generate energy. Stars below about 1.5 times the mass of the Sun (or 1.5 solar masses (M☉)) primarily fuse hydrogen atoms together in a series of stages to form helium, a sequence called the proton–proton chain. Above this mass, in the upper main sequence, the nuclear fusion process mainly uses atoms of carbon, nitrogen and oxygen as intermediaries in the CNO cycle that produces helium from hydrogen atoms. Main-sequence stars with more than two solar masses undergo convection in their core regions, which acts to stir up the newly created helium and maintain the proportion of fuel needed for fusion to occur. Below this mass, stars have cores that are entirely radiative with convective zones near the surface. With decreasing stellar mass, the proportion of the star forming a convective envelope steadily increases, whereas main-sequence stars below 0.4 M☉ undergo convection throughout their mass. When core convection does not occur, a helium-rich core develops surrounded by an outer layer of hydrogen.In general, the more massive a star is, the shorter its lifespan on the main sequence. After the hydrogen fuel at the core has been consumed, the star evolves away from the main sequence on the HR diagram. The behavior of a star now depends on its mass, with stars below 0.23 M☉ becoming white dwarfs directly, whereas stars with up to ten solar masses pass through a red giant stage. More massive stars can explode as a supernova, or collapse directly into a black hole.

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Main sequence