Planetary detection limits taking into account stellar noise
Planetary detection limits taking into account stellar noise

... In this paper, we study different observational strategies to average out as much as possible the effect of stellar noise on RV measurements. The main goal is to find a strategy capable of detecting very small mass planets in habitable regions. To be able to search for such long-period planets, observ ...
An Estimate of the Age Distribution of Terrestrial Planets in the
An Estimate of the Age Distribution of Terrestrial Planets in the

... Received September 13, 2000; Revised January 17, 2001; Posted online April 23, 2001 ...
the solar neighborhood. xxviii. the multiplicity fraction of nearby stars
the solar neighborhood. xxviii. the multiplicity fraction of nearby stars

... Figure 3. Selected color–magnitude diagrams designed to detect substellar companions. The large dots are the primary targets of the search, including 13 white dwarfs. The small dots are background objects. Synthetic photometry of L and T dwarfs, as well as one M9 dwarf, is plotted using a label for ...
Stars as cosmological tools: giving light to Dark Matter
Stars as cosmological tools: giving light to Dark Matter

... properties were found when stars evolve within very high environmental DM densities. A strategy to identify a DM burning star using the stellar oscillations was proposed. The stellar capture of DM particles was thoroughly studied considering dierent assumptions regarding the characteristics of the ...
The occurrence of nitrogen-enhanced metal
The occurrence of nitrogen-enhanced metal

... are predicted to convert the dredged-up carbon into nitrogen by CN cycling at the bottom of the convective envelope (hot bottom burning, HBB). The surface abundances of these more massive AGB stars approach the CN equilibrium ratio of [N/C] ≈ 2. Detailed evolution models of AGB stars (Karakas & Latt ...
The Pluto “Smackdown” and The “New” Solar System
The Pluto “Smackdown” and The “New” Solar System

... Composition (gas, dust), Ionization, Azimuthal asymmetry, etc. * While you are at it… we want to know the statistical moments of these parameters vary as a function of stellar parameters, orbital radius, birth environment, and TIME! ...


... scale, which was reasonably chosen as the age of the jet. Tocknell et al. (2014) add magnetic fields to improve accretion. They do not address the jet power problem, but their jets are older (pre-dating the PN) and this may perhaps alleviate the power short-fall. Stellar rotation seems unable to expl ...
m82 as a galaxy: morphology and stellar content of the disk and halo
m82 as a galaxy: morphology and stellar content of the disk and halo

... in the central 1 kpc region. There exists gas outside this radius but most of it is warped southwards in the direction of its companion M81 (Yun, Ho, & Lo 1993; Walter, Weiss, & Scoville 2002). Thus much of the disk of M82 is gas-poor. Almost all of the Hα emission lies in the nucleus and the halo, ...
Galaxies 1) What are galaxies? 2) The birth of galaxies 3
Galaxies 1) What are galaxies? 2) The birth of galaxies 3

... in their formation. The massive size of galaxies of this type can be attributed to several galactic mergers, an event prone to advancing star formation activity Spiral and Barred Spiral Galaxies: Our galaxy, and our closest neighbour (Andromeda), are among this type. The Milky Way was thought to be ...
notes
notes

... in their formation. The massive size of galaxies of this type can be attributed to several galactic mergers, an event prone to advancing star formation activity Spiral and Barred Spiral Galaxies: Our galaxy, and our closest neighbour (Andromeda), are among this type. The Milky Way was thought to be ...
Discovery of Warm and Dense Molecular Gas Surrounding the Ring
Discovery of Warm and Dense Molecular Gas Surrounding the Ring

... mapped in several 4 0 ; 4 0 fields around G79.29+0.46, using onthe-fly mode, with a fixed position (empty of line emission) as the reference. Several on-the-fly maps were later averaged in order to get a final rms as low as possible. The scanning directions and starting positions were different eac ...
Non-conservative mass transfers in Algols
Non-conservative mass transfers in Algols

... apparently similar properties to 0.9 cases (though generally less well known); 0.5 for binaries where an SD or near-contact designation is about equally likely; and 0.3, indicating rather unlikely SD cases. The majority of the observational eclipse timings (minima times) for these 18 Algol-type bina ...
Pleiades Mythology
Pleiades Mythology

... The Iroquois pray to them for happiness. The Cree came to have come to Earth from the stars in spirit form first and then became flesh and blood. They believe that Mythic Mountain is actually the home of the Kachinas [Gods]. This mountain top is sacred. Being the home of the Kachina spirits it is th ...
Research paper
Research paper

... The acceleration of young runaway stars requires the dynamical interaction of at least 3 stars which leads to the formation or hardening of a compact binary whose gravitational binding energy powers the ejection (Reipurth et al. 2010; Reipurth & Mikkola 2012, 2015). Goddi et al. (2011b); Moeckel & G ...
Sterrenstelsels en Cosmologie Docent: M. Franx, kamer 425
Sterrenstelsels en Cosmologie Docent: M. Franx, kamer 425

... How to measure average surface brightness profile ? Measure the intensity on ellipses of (nearly) constant surface brightness In practice, our images “stop” when there might still be very faint galaxy light. This would not be a problem, but we also have the much brighter light from the night sky. We ...
Chapter 7 in the LSST Science Book
Chapter 7 in the LSST Science Book

... even in regions of high extinction. • Well sampled time domain information, allowing for the unambiguous identification and characterization of variable stars (e.g., RR Lyrae), facilitating their use as density and kinematic tracers to large distances. • Proper motion measurements for stars 4 magnit ...
Debris discs around M stars: non-existence versus non
Debris discs around M stars: non-existence versus non

... peak wavelength coincident with the observed one; 2. or the grains are hotter than predicted by their blackbody temperatures and emit at peak wavelengths that are shorter than the observed one. At these small distances from the M star, planetesimals are unlikely to survive or persist for time scales ...
Identification of the optical counterparts of high-mass X
Identification of the optical counterparts of high-mass X

... parts of the colour-colour diagram and lie inside or very close to the X-ray uncertainty region. Under these conditions the colour-colour diagram restricts the possible candidates to a handful of sources (sometimes just one or two), hence making narrow-slit spectroscopy useful. The next step is to o ...
PRESENT-DAY CLUSTER FORMATION
PRESENT-DAY CLUSTER FORMATION

... coincides with the youngest subgroup 1c of the Orion OB1 association (Blaauw 1964, 1991); there are also many hundreds of fainter stars in this system, which is sometimes called the ‘Orion Nebula Cluster’ (Jones & Walker 1988). Near its center is a much denser, partly obscured concentration of youn ...
Galaxy Notes
Galaxy Notes

... from the central bulge. The Milky Way is a spiral galaxy. Like pinwheels, all spiral galaxies rotate -- but slowly. The Milky Way, for example, makes a complete revolution once every 250 million years or so. New stars are constantly forming out of gas and dust in spiral galaxies. Smaller groups of s ...
The physics of neutron stars
The physics of neutron stars

... regarded as a specific class of stars since the 1910s, with the mass M ∼ M⊙ have the radius R ∼ 104 km, which is comparable to Earth’s radius but almost 1000 times greater than the radius of a neutron star [3]. Therefore, the matter density in their interiors is less than one-thousandth of ρ0 . On t ...
GoldCreation
GoldCreation

... One of my favorite astronomy-themed t-shirts says “You are star dust”. It makes the point that we are all made from long dead stars. Of course, everything around us is also made of star stuff. This even includes rare elements such as gold. This paper discusses the processes of gold formation. Most m ...
The Super-slow Pulsation X-ray Pulsars in High Mass X
The Super-slow Pulsation X-ray Pulsars in High Mass X

... longer than 10000 s within few hundred years; • 4U 2206+54 may undergo transition to spin-up channel in future like 2S 0114+65; • The possible progenitor of B1 supergiant in 2S 0114+65 is O9.5V star (main-sequence star type in 4U 2206+54) in stellar evolutional track (Meynet et al. 1994); • The spin ...
Sterrenstelsels en Cosmologie Docent: M. Franx, kamer 425
Sterrenstelsels en Cosmologie Docent: M. Franx, kamer 425

... magnitude (which would be appropriate for a star). Hence we measure the amount of light per area on the sky. This is called the surface brightness. It is often expressed as magnitude per square arcsec. How to measure average surface brightness profile ? Measure the intensity on ellipses of (nearly) ...
The occurrence of nitrogen-enhanced metal
The occurrence of nitrogen-enhanced metal

... mass are predicted to convert the dredged-up carbon into nitrogen by CN cycling at the bottom of the convective envelope (hot bottom burning, HBB). The surface abundances of these more massive AGB stars approach the CN equilibrium ratio of [N/C] ≈ 2. Detailed evolution models of AGB stars (Karakas & ...

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.