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Researchers have founded three star forming region with hundreds of new members

 

Deep within the vast expanse of interstellar space lie stellar nurseries – colossal clouds of gas and dust known as molecular clouds. Here, under the shroud of darkness, a magnificent spectacle unfolds – the birth of stars. Studying these star-forming regions is akin to peering into the cradles of celestial giants, offering invaluable insights into how stars come to be and evolve.

A recent endeavor by Armenian astronomers, led by Dr. Naira Azatyan of Byurakan Astrophysical Observatory, has shed new light on this captivating cosmic phenomenon. Their research, published in the esteemed Astrophysics and Space Science journal, delved into three intriguing star-forming regions: IRAS 05137+3919, IRAS 05168+3634, and IRAS 19110+1045.

Unearthing Stellar Treasures: Young Stellar Objects Take Center Stage

The team utilized data from a multitude of space telescopes and astronomical surveys, encompassing a broad spectrum of wavelengths ranging from near-infrared to far-infrared. This multi-wavelength approach allowed them to pierce through the dusty veil and identify hundreds of young stellar objects (YSOs) within these regions. YSOs are celestial infants, still in the early stages of their stellar development, before igniting the nuclear fusion that defines a true star.

The number of YSOs unearthed in each region was quite remarkable. IRAS 05137+3919 yielded 33 YSOs, while IRAS 05168+3634 boasted an impressive 240. IRAS 19110+1045, though containing a smaller population of 37 YSOs, presented intriguing characteristics that we will explore later.

Giants in the Making: Unveiling the Stellar Landscape

The investigation wasn't merely a headcount of YSOs. The astronomers meticulously examined the distribution and properties of these young stars within each region. Interestingly, the YSOs in IRAS 05137+3919 weren't uniformly scattered but formed two distinct groupings, hinting at a possible multi-phase formation process.

IRAS 05168+3634 presented a more complex picture. The observations revealed a staggering five dense subgroups teeming with YSOs. Even more enthralling, it appeared that four of these subgroups, along with the entire region itself, were nestled within a vast cloud complex spanning a staggering 85 light-years in length. This intricate structure suggests a dynamic interplay between star formation and the surrounding interstellar medium.

Decoding Stellar Ages and Formation Histories

The research delved deeper by analyzing the age distribution of the YSO populations. In both IRAS 05137+3919 and IRAS 05168+3634, the YSOs exhibited a wide range of ages. This finding suggests that star formation within these regions wasn't a single, instantaneous event. Instead, it likely occurred in a series of bursts spread over a significant timeframe, with new stars igniting within the vast reservoir of gas and dust within the parent molecular cloud.

However, IRAS 19110+1045 presented a contrasting story. Here, the YSOs displayed a considerably narrower range of ages. This observation, coupled with the presence of a pair of ultra-compact ionized hydrogen regions (HII regions) designated G45.12+0.13 and G45.07+0.13, suggests a more recent and potentially triggered episode of star formation within this region. The presence of massive stars exclusively in IRAS 19110+1045 further strengthens this hypothesis. Massive stars are known to be powerful drivers of star formation, and their intense radiation and stellar winds could have compressed the surrounding gas and dust, igniting a new generation of stars.

Beyond the Cradle: A Glimpse into the Interstellar Medium

The Armenian team's investigation wasn't solely focused on the stellar inhabitants. They also meticulously examined the interstellar medium (ISM) within each region. The ISM is the cosmic soup of gas and dust that permeates the vast gulfs between stars. Understanding the properties of the ISM is crucial, as it provides the raw material for future star formation.

The analysis revealed variations in the temperature and hydrogen column density (a measure of the amount of hydrogen gas present) across the three regions. IRAS 19110+1045 emerged as the region with the highest temperature and hydrogen column density – a finding that aligns well with the presence of massive stars and the more recent burst of star formation observed there.

infrared images




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