In the vast canvas of the cosmos, CTa-1 emerges as a captivating stellar composition, inviting us to explore the wonders hidden in the depths of space. This celestial entity, nestled in the astral realms, unfolds its cosmic dance, captivating astronomers and stargazers with its intricate interplay of light and shadow. While the specifics of CTa-1 may elude casual observers, its radiant display serves as a testament to the mesmerizing beauty concealed within the cosmic tapestry. As we peer into the celestial depths, CTa-1 reminds us that the universe, with its countless narratives, continues to unveil its mysteries, offering a glimpse into the poetic allure that adorns the night sky.

Image Description and Details: least photographed object.The Hind Nebula(Herbig-Haro object), prototypical example is the variable star T Tauri, visible as the bright orange star near the image center. The orange star centered in this remarkable telescopic sky view is T Tauri, prototype of the class of T Tauri variable stars. Surrounding T Tauri is a dusty yellow cosmic cloud named the Hind's Variable Nebula (NGC 1555/1554).

Total Exposure: 9Hours 45minutes

Equipment Details: Telescope: Planewave CDK24
Camera: QHY 600M Pro
Filters: Astrodon LRGB
Mount: Mathis MI-1000/1250

Copyright: Credit & Copywrite: Harshwardhan Pathak/Telescope live

Image Description and Details: The Lagoon Nebula is a giant interstellar cloud in the constellation Sagittarius. It is classified as an emission nebula and as an HII region.

It was discovered by Giovanni Hodierna before 1654 and is one of only two star-forming nebulae faintly visible to the eye from mid-northern latitudes. Seen with binoculars, it appears as a distinct cloud-like patch with a definite core. Within the nebula is the open cluster NGC 6530.

- Exposure: 6h55m.
- Acquisition: Image data acquired remotely using the Telescope Live CHI-1 telescope.
- Processing: PixInsight & Adobe Photoshop.

Equipment Details: - Optics: Planewave CDK24.
- Camera: QHY600M CMOS.
- Filters: Astrodon SHO.

Copyright: Credit & Copyright: Chris Willocks / Telescope Live.

Name: Christopher Willocks

Image Description and Details: ​NGC 7822 is a young star forming complex in the constellation of Cepheus. The complex encompasses the emission region designated Sharpless 171, and the young cluster of stars named Berkeley 59. The complex is believed to be some 800–1000 pc distant with the younger components aged no more than a few million years. The complex also includes one of the hottest stars discovered within 1 kpc of the Sun, namely BD+66 1673, which is an eclipsing binary system consisting of an O5V that exhibits a surface temperature of nearly 45,000 K and a luminosity about 100,000 times that of the Sun. The star is one of the primary sources illuminating the nebula and shaping the complex's famed pillars of creation-type formations

NGC 7635, also known as the Bubble Nebula, is a striking emission nebula located in the constellation Cassiopeia. This cosmic beauty gets its name from the bubble-like structure created by the stellar wind from the massive, young, and luminous star at its center, SAO 20575. The intense radiation and powerful stellar winds from this central star interact with the surrounding interstellar medium, sculpting the nebula's delicate and intricate features.

In this composite view of the Sun, the image on the left, taken using a white light filter, provides a detailed look at the visible surface, or photosphere, revealing granular structures and sunspots that mark regions of complex magnetic activity. Sunspots are cooler areas created by strong magnetic fields inhibiting the transport of heat from the solar interior, appearing as dark blemishes on the solar surface.

On the right, the image captured with a Hydrogen-Alpha (Hα) filter unveils the chromosphere's dynamic features, showcasing solar prominences that tower over the Sun's limb. These prominences, composed of cooler plasma suspended in magnetic loops, offer a captivating glimpse into the intricate magnetic phenomena occurring on the solar surface.

Solar prominences can erupt in dramatic events known as solar flares, releasing intense bursts of energy and charged particles into space. These flares, often accompanied by coronal mass ejections (CMEs), can have significant impacts on our space environment, potentially affecting satellite operations and terrestrial communication systems.

NGC 7129 is a reflection nebula located in the constellation Cepheus. This stellar nursery is known for its intricate and captivating structures, which are illuminated by the light of newly formed stars within its vicinity. The nebula's striking appearance is primarily due to the scattering of starlight by fine dust particles in the interstellar medium.

NGC 7129 offers astronomers a unique opportunity to study the process of star formation and the dynamics of young stellar clusters. By examining the properties of the stars within the nebula and analyzing its molecular composition, researchers can gain insights into the conditions and mechanisms that govern the birth and evolution of stars. The study of NGC 7129 contributes to our broader understanding of the fundamental processes that shape the formation of stars and planetary systems, shedding light on the intricate interplay between radiation, matter, and gravity in the cosmos.

TMC-1, or the Taurus Molecular Cloud-1, is a dense interstellar cloud located in the constellation Taurus. This cold and dark molecular cloud is of particular interest to astronomers as it represents an environment where new stars may eventually form. TMC-1 is known for its rich abundance of molecular compounds, including carbon-bearing molecules such as carbon monoxide (CO) and carbon dioxide (CO2), as well as organic molecules like cyanopolyynes.

The study of TMC-1 provides valuable insights into the initial conditions and processes that govern star formation within molecular clouds. By analyzing the chemical composition and physical properties of TMC-1, researchers can better understand the intricate interplay between gravity, magnetic fields, and turbulence, which ultimately lead to the gravitational collapse and birth of new stars. TMC-1 serves as a natural laboratory for studying the early stages of stellar evolution and the complex chemistry that underlies the formation of planetary systems and the building blocks of life in the cosmos.

NGC 2004 offers astronomers a unique opportunity to study the formation and evolution of stars in an environment characterized by intense stellar radiation and energetic outflows. By analyzing the properties of the stars within the cluster, researchers can gain insights into the processes of star formation, stellar evolution, and the dynamics of stellar populations in a region of active star formation. The study of NGC 2004 contributes to our broader understanding of the mechanisms governing the birth and development of stars in the diverse and dynamic cosmic landscapes of our universe.

IC 59 and IC 63, collectively known as the Ghost of Cassiopeia, are a pair of faint reflection nebulae situated in the constellation Cassiopeia. These nebulae are primarily illuminated by the light of Gamma Cassiopeiae, a variable star with a powerful stellar wind. IC 59 and IC 63 owe their ghostly appearance to the scattering of starlight by dust particles in the interstellar medium, giving them a wispy and ethereal aspect.

Image Description and Details: NGC 7380/ SH2 142 - The Wizard Nebula, is an open cluster of stars still embedded in the nebula out of which it formed. The stars are estimated to be about 4 million years old. The cluster is about 8,000 light years away in the constellation Cepheus.

Image Description and Details: Southeast of the star Shedar, there is a vast molecular nebula area. LBN 603, LDN 1295, LDN1296, and TGU H809 are part of it and as well as others not shown. LBN603 is the 603rd object in the Lynds Bright Nebulae (LBN) Catalog, and the Lynds brightness scale of 1 (brightest) to 6 (dimmest) has this one at a 6. This was captured over a couple nights in October.

It was the last Lunar eclipse of the year and I tried to capture it successfully. As soon as it starts entering the umbral region, a dark shadow starts overlapping the moon and making it look like a "Bitten Biscuit." As the Umbral eclipse starts, the bands slowly turn orangish red and the shadow starts overtaking the brightness the Moon until it gets fully covered. The eclipse has no such effect on human beings as the rumours and superstitions roam around. The events of nature are meant to be enjoyed together.

Location: Castillejar, Andalusia, Spain

Image Description and Details: 2200 years ago, when the photons of light left this nebula to reach us, the Earth was definitely another place. The cosmic time machine, the telescope, this time was pointed towards the constellation Cygnus, more precisely towards Sh2-119. Gas and dust envelop the main star, 68-Cygni being mostly responsible for the ionization of the gas around it. This ionization makes the gases all colored at different wavelengths, from blue to green, passing through all shades of brown and orange. The dark nebula filaments above contrast strongly with both the glow of the nebula and the rich field full of stars in the background. These filaments are clouds containing mostly gas (hydrogen and helium) and a minimal fraction of dust (about 1%), responsible for the appearance of the cloud. These dusts, although minimal, absorb the light, making the nebula completely dark. Sh2-119 is a celestial signature of an ancient explosion that released gas and dust into the universe, forming new stars and planets. The silk effect of the nebula makes us think of a white colored pillow in a bed of stars, but, among that dust, stars and planets are forming in the most violent and destructive processes.

Image Description and Details: The Fiery Veil of Andromeda!
Gaze upon the Andromeda Galaxy, our cosmic neighbour, as it reveals its hidden secrets. The crimson halo you see is the Ha emission, a testament to the vast clouds of hydrogen gas that envelop this majestic galaxy. It's like Andromeda's own ethereal aura, glowing softly against the backdrop of the cosmos.



Now, let's dive deeper. The inverted image you see is a result of meticulous processing of the data taken using the Radian Triad filter. But what's that faint glimmer to the left? Ah, that's the STROTTNER-DRECHSLER-SAINTY OBJECT 1. Processing this was no easy feat. It was like trying to hear a whisper in a storm. But with a blend of channels, some masking magic, and this ghostly presence was brought to life. Its amazing how the world of Oiii has so much for us unknown.

Barnard 150 is a dark nebula visible in Cepheus constellation. It is also known as the Seahorse Nebula due to its shape.

Image Title: Ngc1333 Wide field



Image Description and Details: NGC 1333 is a reflection nebula located in the northern constellation Perseus.
This nebula is a young region of very active star formation, being one of the best-studied objects of its type.

Image Description and Details: Can you see the face in space ? Blue eyes, a dark nose and mouth with curly red hair….
The red in space is ionised hydrogen and blue is atomised oxygen. Cosmic pillars of cold molecular gas and clouds of dark dust – often called elephant trunks – lie within NGC 7822. Powering the nebular glow are the young, hot stars of the Berkeley 59 cluster, whose powerful winds and radiation also sculpt and erode the dense pillar shapes. Stars could still be forming inside the pillars by gravitational collapse, but as the pillars are eroded away, any forming stars will ultimately be cut off from their reservoir of star stuff…..

Image Description and Details: It was a great experience to enjoy this great phenomenon of nature, although from where I was (Dallas, Tx.) it was not possible to see 100% of this annular solar eclipse, but here I leave you the result of these images taken from my dedicated telescope I hope you like it, and we will wait for the next total eclipse, from Dallas, now we will see it completely in this area, next April 2024.

Image Description and Details: WR 134 est une étoile variable située à environ 6 000 années-lumière de la Terre dans la constellation du Cygne. WR 134 expulse une partie de ces couches externes qui sont ensuite soufflées par le rayonnement intense et les vents stellaires rapides de l’étoile. L’éjecta est ensuite entré en collision avec la nébuleuse ambiante entourant l’étoile pour former cette espèce de disque (en bleu dans l’image).