Westerhout 40 or W40 (also designated Sharpless 64, Sh2-64, or RCW 174) is a

star-forming region Star formation is the process by which dense regions within molecular clouds in The "medium" is present further soon.-->interstellar space

in the Milky Way located in the constellation Serpens. In this region, interstellar gas forming a diffuse nebula surrounds a cluster of several hundred new-born stars. The distance to W40 is 436 ± 9 pc (1420 ± 30 light years), making it one of the closest sites of formation of high-mass O-type and B-type stars. The

ionizing radiation Ionizing radiation (or ionising radiation), including nuclear radiation, consists of subatomic particles or electromagnetic waves that have sufficient energy to ionize atoms or molecules by detaching electrons from them. Some particles can travel ...

from the massive OB stars has created an H II region, which has an hour-glass morphology. Dust from the molecular cloud in which W40 formed obscures the nebula, rendering W40 difficult to observe at visible wavelengths of light. Thus, X-ray, infrared, and radio observations have been used to see through the molecular cloud to study the star-formation processes going on within. W40 appears near to several other star-forming regions in the sky, including an

infrared dark cloud An infrared dark cloud (IRDC) is a cold, dense region of a giant molecular cloud. They can be seen in silhouette against the bright diffuse mid-infrared emission from the galactic plane. Discovery Infrared dark clouds have only been recently dis ...

designated Serpens South and a young stellar cluster designated the Serpens Main Cluster. Similar distances measured for these three star-forming regions suggests that they are near to each other and part of the same larger-scale collection of clouds known as the Serpens Molecular Cloud.

On the Sky

The W40 star-forming region is projected on the sky in the direction of the Serpens-Aquila Rift, a mass of dark clouds above the Galactic plane in the constellations Aquila, Serpens, and eastern Ophiuchus. The high extinction from interstellar clouds means that the nebula looks unimpressive in visible light, despite being one of the nearest sites of massive

star formation Star formation is the process by which dense regions within molecular clouds in The "medium" is present further soon.-->interstellar space

Star Formation in W40

Like all star-forming regions, W40 is made up of several components: the cluster of young stars and the gaseous material from which these stars form (the

interstellar medium In astronomy, the interstellar medium is the matter and radiation that exist in the space between the star systems in a galaxy. This matter includes gas in ionic, atomic, and molecular form, as well as dust and cosmic rays. It fills interstella ...

). Most of the gas in W40 is in the form of molecular clouds, the coldest, densest phase of the interstellar medium, which is made up of mostly molecular hydrogen (H₂). Stars form in molecular clouds when the gas mass in part of a cloud becomes too great, causing it to collapse due to the Jeans instability. Stars usually do not form in isolation, but rather in groups containing hundreds or thousands of other stars, as is the case of W40. In W40, feedback from the star cluster has ionized some of the gas and blown a bipolar bubble in the cloud around the cluster. Such feedback effects may trigger further star-formation but can also lead to the eventual destruction of the molecular cloud and an end of star-formation activity.

Star cluster

cluster may refer to: Science and technology Astronomy * Cluster (spacecraft), constellation of four European Space Agency spacecraft * Asteroid cluster, a small asteroid family * Cluster II (spacecraft), a European Space Agency mission to study th ...

of young stars lies at the center of the W40 HII region containing approximately 520 stars down to 0.1 solar masses (). Age estimates for the stars indicate that the stars in the center of the cluster are approximately 0.8 million years old, while the stars on the outside are slightly older at 1.5 million years. The cluster is roughly spherically symmetric and is mass segregated, with the more massive stars relatively more likely to be found near the center of the cluster. The cause of mass segregation in very young star clusters, like W40, is an open theoretical question in star-formation theory because timescales for mass segregation through two-body interactions between stars are typically too long. The cloud is ionized by several O and B-type stars. Near-infrared spectroscopy has identified one late-O type star named IRS 1A South, and 3 early B-type stars, IRS 2B, IRS 3A, and IRS 5. In addition, IRS 1A North and IRS 2A are

Herbig Ae/Be stars A Herbig Ae/Be star (HAeBe) is a pre-main-sequence star – a young () star of spectral types A or B. These stars are still embedded in gas-dust envelopes and are sometimes accompanied by circumstellar disks. Hydrogen and calcium emission lines a ...

. Radio emission from several of these stars is observed with the Very Large Array, and may be evidence for ultra-compact H II regions. Excess light in the infrared indicates that a number of stars in the cluster have

circumstellar disks 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 ...

, which may be in the process of forming

planets A planet is a large, rounded astronomical body that is neither a star nor its remnant. The best available theory of planet formation is the nebular hypothesis, which posits that an interstellar cloud collapses out of a nebula to create a young ...

. Millimeter observations from the IRAM 30m telescope show 9 Class-0 protostars in the Serpens South region and 3 Class-0 protostars in W40, supporting the view that the region is very young and actively forming stars.

Interstellar medium

W40 lies in a molecular cloud with an estimated mass of 10⁴ . The core of the molecular cloud has a shape like a shepherd's crook and is currently producing new stars. The cluster of OB and pre–main-sequence (PMS) stars lies just eastward of the bend in this filament. The cloud core was also observed in radio light produced by CO, which allows the mass of the core to be estimated at 200–300 . A weak, bipolar outflow of gas flows out of the core, likely driven by a young stellar object, with two lobes differing in velocity by 0.5 km/s. W40 molecular filament

It was in this region where the striking prevalence of filamentary cloud structures seen by ESA's

Herschel Space Observatory The Herschel Space Observatory was a space observatory built and operated by the European Space Agency (ESA). It was active from 2009 to 2013, and was the largest infrared telescope ever launched until the launch of the James Webb Space Telesc ...

was first noted. These filaments of cloud have dense "cores" of gas embedded within them—many of which are likely to gravitationally collapse and form stars. The Herschel results for this region, and subsequently reported results for other star-forming regions, imply that fragmentation of molecular-cloud filaments are fundamental to the star-formation process. The Herschel results for W40 and the Aquila Rift, compared to those for molecular clouds in the Polaris region, suggest that star-formation occurs when the linear density (mass per unit length) exceeds a

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making them susceptible to gravitational instability. This accounts for the high star-formation rate in W40 and the Aquila Rift, in contrast to the low star-formation rate in the Polaris clouds. These observational results complement computer simulations of star-formation, which also emphasize the role that molecular-cloud filaments play in the birth of stars. Observations by the space-based Chandra X-ray Observatory have shown a diffuse X-ray glow from the H II region, which is likely due to the presence of a multi-million Kelvin plasma. Such hot plasmas can be produced by winds from massive stars, which become shock heated.

Gallery

Image:W40_star-forming_region.jpg,

Spitzer Space Telescope The Spitzer Space Telescope, formerly the Space Infrared Telescope Facility (SIRTF), was an infrared space telescope launched in 2003. Operations ended on 30 January 2020. Spitzer was the third space telescope dedicated to infrared astronomy, f ...

mosaic image of W40. Image:Infrared Dark Cloud (IRDC) in the W40 region.jpg, A close-up of an

IRDC IRDC (Iraq Reconstruction and Development Council) was a group of 150 Iraqi expatriates —most of whom were American citizens— recruited by the Pentagon in March 2003 to assist the Coalition Forces with post-war reconstruction planning after th ...

in the Spitzer image. Image:A Chandra image of the W40 star-forming region.jpg, The W40 cluster in the X-ray. Image: Infrared_Image_of_Dark_Cloud_in_Aquila.jpg , W40 and its environs seen by Herschel. Image: W40 - Sofia.jpg , SOFIA view of the center of W40. Image:Sh2-64 (= Westerhout 40) from Mount Lemmon SkyCenter.jpg, An optical image of W40 from Mount Lemmon SkyCenter.

References