Young stellar object (YSO) denotes a star in its early stage of evolution. This class consists of two groups of objects:

protostar A protostar is a very young star that is still gathering mass from its parent molecular cloud. The protostellar phase is the earliest one in the process of stellar evolution. For a low-mass star (i.e. that of the Sun or lower), it lasts about 5 ...

s and

pre-main-sequence star A pre-main-sequence star (also known as a PMS star and PMS object) is a star in the stage when it has not yet reached the main sequence. Earlier in its life, the object is a protostar that grows by acquiring mass from its surrounding envelope of ...

Classification by spectral energy distribution

A star forms by accumulation of material that falls in to a protostar from a

circumstellar disk A circumstellar disc (or circumstellar disk) is a torus, pancake or ring-shaped accretion disk of matter composed of gas, dust, planetesimals, asteroids, or collision fragments in orbit around a star. Around the youngest stars, they are the ...

or envelope. Material in the disk is cooler than the surface of the protostar, so it radiates at longer wavelengths of light producing excess infrared emission. As material in the disk is depleted, the infrared excess decreases. Thus, YSOs are usually classified into evolutionary stages based on the slope of their

spectral energy distribution A spectral energy distribution (SED) is a plot of energy versus frequency or wavelength of light (not to be confused with a 'spectrum' of flux density vs frequency or wavelength). It is used in many branches of astronomy to characterize astron ...

in the mid-

infrared Infrared (IR), sometimes called infrared light, is electromagnetic radiation (EMR) with wavelengths longer than those of visible light. It is therefore invisible to the human eye. IR is generally understood to encompass wavelengths from around ...

, using a scheme introduced by Lada (1987). He proposed three classes (I, II and III), based on the values of intervals of

spectral index In astronomy, the spectral index of a source is a measure of the dependence of radiative flux density (that is, radiative flux per unit of frequency) on frequency. Given frequency \nu and radiative flux density S_\nu, the spectral index \alpha is g ...

\alpha \,

\alpha=\frac

. Here

\lambda \,

is wavelength, and

F_\lambda

flux Flux describes any effect that appears to pass or travel (whether it actually moves or not) through a surface or substance. Flux is a concept in applied mathematics and vector calculus which has many applications to physics. For transport ph ...

density. The

\alpha \,

is calculated in the wavelength interval of 2.2–20

m

( near- and mid-infrared region). Andre ''et al.'' (1993) discovered a class 0: objects with strong submillimeter emission, but very faint at

<10m

. Greene ''et al.'' (1994) added a fifth class of "flat spectrum" sources. *Class 0 sources – undetectable at

<20m

*Class I sources have

>0.3

*Flat spectrum sources have

0.3>>-0.3

*Class II sources have

-0.3>>-1.6

*Class III sources have

<-1.6

This classification schema roughly reflects evolutionary sequence. It is believed that most deeply embedded Class 0 sources evolve towards Class I stage, dissipating their

circumstellar envelope A circumstellar envelope (CSE) is a part of a star that has a roughly spherical shape and is not gravitationally bound to the star core. Usually circumstellar envelopes are formed from the dense stellar wind, or they are present before the formatio ...

s. Eventually they become optically visible on the

stellar birthline The stellar birthline is a predicted line on the Hertzsprung–Russell diagram that relates the effective temperature and luminosity of pre-main-sequence stars at the start of their contraction. Prior to this point, the objects are accreting prot ...

as pre-main-sequence stars. Class II objects have circumstellar disks and correspond roughly to classical

T Tauri star T Tauri stars (TTS) are a class of variable stars that are less than about ten million years old. This class is named after the prototype, T Tauri, a young star in the Taurus star-forming region. They are found near molecular clouds and iden ...

s, while Class III stars have lost their disks and correspond approximately to weak-line T Tauri stars. An intermediate stage where disks can only be detected at longer wavelengths (e.g., at

24m

) are known as transition-disk objects.

Characteristics

YSOs are also associated with early star evolution phenomena: jets and

bipolar outflow A bipolar outflow comprises two continuous flows of gas from the poles of a star. Bipolar outflows may be associated with protostars (young, forming stars), or with evolved post-AGB stars (often in the form of bipolar nebulae). Protostars In t ...

s, masers,

Herbig–Haro object Herbig–Haro (HH) objects are bright patches of nebula, nebulosity associated with newborn stars. They are formed when narrow jets of partially plasma (physics), ionised gas ejected by stars collide with nearby clouds of gas and dust at several ...

s, and

protoplanetary disk A protoplanetary disk is a rotating circumstellar disc of dense gas and dust surrounding a young newly formed star, a T Tauri star, or Herbig Ae/Be star. The protoplanetary disk may also be considered an accretion disk for the star itself, be ...

s (circumstellar disks or proplyds). Opo0113i

Classification of YSOs by mass

These stars may be differentiated by mass: Massive YSOs, intermediate-mass YSOs, and

brown dwarf Brown dwarfs (also called failed stars) are substellar objects that are not massive enough to sustain nuclear fusion of ordinary hydrogen ( 1H) into helium in their cores, unlike a main-sequence star. Instead, they have a mass between the most ...

References

External links

{{DEFAULTSORT:Young Stellar Object Star formation Star types

Classification by spectral energy distribution

Characteristics

Classification of YSOs by mass

See also

References

External links