This wide-field view of the Orion Nebula (Messier 42), lying about 1350 light-years from Earth, was taken with the VISTA infrared survey telescope at ESO’s Paranal Observatory in Chile. The new telescope’s huge field of view allows the whole nebula and its surroundings to be imaged in a single picture and its infrared vision also means that it can peer deep into the normally hidden dusty regions and reveal the curious antics of the very active young stars buried there. This image was created from images taken through Z, J and Ks filters in the near-infrared part of the spectrum. The exposure times were ten minutes per filter. The image covers a region of sky about one degree by 1.5 degrees. #L

Hubble View of the Orion Nebula

A clear night on December 29th 2011....I managed to pick up the Orion Nebula.

Nikon d3100 with 70mm-300mm lens.

Another attempt at M42 this time with a little post shot processing in elements 10 to try and bring out the gas clouds a little more.

Celestron Nexstar 6 telescope

Mintron camera

Orion Nebula (M42/NGC 1976) and Running Man Nebula (Sh2-279)

Sony α7R III | William Optics ZenithStar 61II APO f/5.9 | iOptron SkyGuider Pro

Integration Time: 2 hr 20 min

ISO 400 | f/5.9 | 2 min

Lights: 70 x 2 min

Darks: 50 x 2 min

Flats: 20 x 1/25 sec

Bias: 100 x 1/8000 sec

Photographed by Barry Underwood. One of my very first attempts at astrophotography, using an ancient 8" equatorially mounted newtonian telescope and a home made RA drive. Taken with a Nikon Cooolpix 995 camera.

William Optics Zenithstar 73

ZwoASI294MC Pro

Optolong L-Pro broadband filter

This wide-field view of the Orion Nebula (Messier 42), lying about 1350 light-years from Earth, was taken with the VISTA infrared survey telescope at ESO’s Paranal Observatory in Chile. The new telescope’s huge field of view allows the whole nebula and its surroundings to be imaged in a single picture and its infrared vision also means that it can peer deep into the normally hidden dusty regions and reveal the curious antics of the very active young stars buried there. This image was created from images taken through Z, J and Ks filters in the near-infrared part of the spectrum. The exposure times were ten minutes per filter. The image covers a region of sky about one degree by 1.5 degrees. #L

The Orion Nebula (M42), seen from my backyard in the Netherlands, in Westzaan (close to Amsterdam). The Nikon was mounted on a simple tripod, without tracking.

La nébuleuse d'Orion, photographiée avec une GC-CAM au foyer d'un télescope Skywatcher 150/750, fortement retraitée avec GIMP (c'est le second traitement du même cliché que je met en ligne).

The Orion Nebula (M42), seen from my backyard in the Netherlands, in Westzaan (close to Amsterdam). The Nikon was mounted on a simple tripod, without tracking.

This wide-field view of the Orion Nebula (Messier 42), lying about 1350 light-years from Earth, was taken with the VISTA infrared survey telescope at ESO’s Paranal Observatory in Chile. The new telescope’s huge field of view allows the whole nebula and its surroundings to be imaged in a single picture and its infrared vision also means that it can peer deep into the normally hidden dusty regions and reveal the curious antics of the very active young stars buried there. This image was created from images taken through Z, J and Ks filters in the near-infrared part of the spectrum. The exposure times were ten minutes per filter. The image covers a region of sky about one degree by 1.5 degrees. #L

M42

CANON EOS 60 D

SKY WATCHER 130/900

Lights de 30 segundos ISO 800

Procesado DSS, PIX LE, GIMP, FITSWORK 4

CIELO BORTTLE 8-9

Hubble (1994-06-13) M 42, Messier 42, NGC 1976, Orion Nebula 01 (Hubble) - Hubble Probes the Great Orion Nebula

blinkysastroblog.wordpress.com

This new image of the Orion Nebula was captured using the Wide Field Imager camera on the MPG/ESO 2.2-metre telescope at the La Silla Observatory, Chile. This image is a composite of several exposures taken through a total of five different filters. Light that passed through a red filter, as well as light from a filter that shows the glowing hydrogen gas, is coloured red. Light in the yellow–green part of the spectrum is coloured green, blue light is coloured blue and light that passed through an ultraviolet filter has been coloured purple. The exposure times were about 52 minutes through each filter. This image is available as a mounted image in the ESOshop.

This is the final finished image of Orin from my winter sessions. It is almost too low in the sky now to get decent images without light pollution affecting the exposures. Orion won't be back high in the sky until October/November this year.

3x3 (9 panel) mosaic of Orion and Horse Head Nebulae in hydrogen alpha. 11.52 hours total exposure time.

Orion Nebula (M42/NGC 1976) and Running Man Nebula (Sh2-279)

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Location: Montclair, California, USA (Bortle 8)

Date: January 28, 2022

Moon: Waning Crescent (12%)

Camera: ZWO ASI6200MC Pro

Telescope: William Optics ZenithStar 61II APO f/5.9

Flattener/Reducer: William Optics FLAT61A Field Flattener

Filter: Optolong L-eXtreme 2”

Mount: Sky-Watcher EQ6-R Pro

Guide Camera: ZWO ASI120MM Mini

Guide Scope: William Optics UniGuide 32 f/3.75

Controller: ZWO ASIAIR Pro

Battery: Jackery Portable Power Station Explorer 300

Camera Settings: Gain 100 | f/5.9 | 10 sec, 30 sec, 180 sec

Acquisition: 39 x 10 sec; 40 x 30 sec; 97 x 180 sec

Integration Time: 5 hrs 17 min 30 sec

Software: PixInsight, Topaz Labs Denoise AI, Adobe Lightroom Classic

-------------------------------------------------------

Copyright © 2022 Steven K. Wu Photography. All Rights Reserved.

This wide-field view of the Orion Nebula (Messier 42), lying about 1350 light-years from Earth, was taken with the VISTA infrared survey telescope at ESO’s Paranal Observatory in Chile. The new telescope’s huge field of view allows the whole nebula and its surroundings to be imaged in a single picture and its infrared vision also means that it can peer deep into the normally hidden dusty regions and reveal the curious antics of the very active young stars buried there. This image was created from images taken through Z, J and Ks filters in the near-infrared part of the spectrum. The exposure times were ten minutes per filter. The image covers a region of sky about one degree by 1.5 degrees. #L

Orion Nebula (M42/NGC 1976) and Running Man Nebula (Sh2-279)

Starless red channel from integrated Ha + OIII with the Optolong L-eXtreme.

-------------------------------------------------------

Location: Montclair, California, USA (Bortle 8)

Date: January 28, 2022

Moon: Waning Crescent (12%)

Camera: ZWO ASI6200MC Pro

Telescope: William Optics ZenithStar 61II APO f/5.9

Flattener/Reducer: William Optics FLAT61A Field Flattener

Filter: Optolong L-eXtreme 2”

Mount: Sky-Watcher EQ6-R Pro

Guide Camera: ZWO ASI120MM Mini

Guide Scope: William Optics UniGuide 32 f/3.75

Controller: ZWO ASIAIR Pro

Battery: Jackery Portable Power Station Explorer 300

Camera Settings: Gain 100 | f/5.9 | 10 sec, 30 sec, 180 sec

Acquisition: 39 x 10 sec; 40 x 30 sec; 97 x 180 sec

Integration Time: 5 hrs 17 min 30 sec

Software: PixInsight, Topaz Labs Denoise AI, Adobe Lightroom Classic

-------------------------------------------------------

Copyright © 2022 Steven K. Wu Photography. All Rights Reserved.

Orion Nebula (M42/NGC 1976) and Running Man Nebula (Sh2-279)

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Location: Cholla Cactus Garden, Joshua Tree National Park, California, USA (Bortle 4)

Date: January 28, 2022

Moon: Waning Crescent (12%)

Camera: ZWO ASI6200MC Pro

Telescope: William Optics ZenithStar 61II APO f/5.9

Flattener/Reducer: William Optics FLAT61A Field Flattener

Filter: Astronomik L2 UV-IR Blocking 2”

Mount: Sky-Watcher EQ6-R Pro

Guide Camera: ZWO ASI120MM Mini

Guide Scope: William Optics UniGuide 32 f/3.75

Controller: ZWO ASIAIR Pro

Battery: Jackery Portable Power Station Explorer 300

Camera Settings: Gain 100 | f/5.9 | 10 sec, 30 sec, 180 sec

20 x 10 sec = 3 min 20 sec

20 x 30 sec = 10 min

10 x 180 sec = 30 min

Integration Time: 43 min 20 sec

Software: PixInsight, Topaz Labs Denoise AI, Adobe Lightroom Classic

-------------------------------------------------------

Copyright © 2022 Steven K. Wu Photography. All Rights Reserved.

Some of the central stars are slightly over-exposed, but I am quite pleased with the result none the less

Some of the filaments of gas are exceedingly interesting.

I think i will almost certainly be coming back to this picture again!!! I think my next job is to try and artifically colour it...

7 second exposure

Test shot: Canon 7D mk2, 77mm f/3.2 ISO 1600 5x60s

A colony of hot, young stars is stirring up the cosmic scene in this new picture from NASA's Spitzer Space Telescope. The image shows the Orion nebula, a happening place where stars are born. The young stars dip and peak in brightness due to a variety of reasons. Shifting cold and hot spots on the stars' surfaces cause brightness levels to change, in addition to surrounding disks of lumpy planet-forming material, which can obstruct starlight. Spitzer is keeping tabs on the young stars, providing data on their changing ways..

.

The hottest stars in the region, called the Trapezium cluster, are bright spots at center right. Radiation and winds from those stars has sculpted and blown away surrounding dust. The densest parts of the cloud appear dark at center left..

.

This image was taken after Spitzer's liquid coolant ran dry in May 2009, marking the beginning of its "warm" mission. Light from the telescope's remaining infrared channels has been color-coded: 3.6-micron light is blue and 4.5-micron light is orange.

Harmony Borax Works in Death Valley National Park

3x3 (9 panel) mosaic of Orion and Horse Head Nebulae in hydrogen alpha. 11.52 hours total exposure time.

This wide-field view of the Orion Nebula (Messier 42), lying about 1350 light-years from Earth, was taken with the VISTA infrared survey telescope at ESO’s Paranal Observatory in Chile. The new telescope’s huge field of view allows the whole nebula and its surroundings to be imaged in a single picture and its infrared vision also means that it can peer deep into the normally hidden dusty regions and reveal the curious antics of the very active young stars buried there. This image was created from images taken through Z, J and Ks filters in the near-infrared part of the spectrum. The exposure times were ten minutes per filter. The image covers a region of sky about one degree by 1.5 degrees. #L

Orion over Yosemite National Park, California

William Optics FLT 132 Apo Refractor

ZwoASI294MC Pro

Messier 42, The Great Orion Nebula (DEC2009). Easily seen even with binoculars in the winter sky.

Telescope: 80mm ED APO.

CCD camera: QHY8 Color 6MP

Filters: Color (60s)

Image Processing: Calibrated, Aligned and Stacked, and color combined with MaxIM DL

This wide-field view of the Orion Nebula (Messier 42), lying about 1350 light-years from Earth, was taken with the VISTA infrared survey telescope at ESO’s Paranal Observatory in Chile. The new telescope’s huge field of view allows the whole nebula and its surroundings to be imaged in a single picture and its infrared vision also means that it can peer deep into the normally hidden dusty regions and reveal the curious antics of the very active young stars buried there. This image was created from images taken through Z, J and Ks filters in the near-infrared part of the spectrum. The exposure times were ten minutes per filter. The image covers a region of sky about one degree by 1.5 degrees. #L

Zabriskie Point in Death Valley National Park

This dark red column shows an illuminated edge of the cavity wall.

The Orion Nebula (M42), seen from my backyard in the Netherlands, in Westzaan (close to Amsterdam). The Nikon was mounted on a simple tripod, without tracking.

Still the same shot, but with another treatment in Photoshop and Siril.

Hubble (1995-11-20) 02 Messier 42, Orion Nebula (Hubble) - Maelstrom of star birth

Photo by Farrell Germann using a Canon XS DSLR and an Orion 80mm ED scope, all mounted on a Celestron mount.

Galiléo GPS Messier42 I et II (en route)

A colony of hot, young stars is stirring up the cosmic scene in this new picture from NASA's Spitzer Space Telescope. The image shows the Orion nebula, a happening place where stars are born. The young stars dip and peak in brightness due to a variety of reasons. Shifting cold and hot spots on the stars' surfaces cause brightness levels to change, in addition to surrounding disks of lumpy planet-forming material, which can obstruct starlight. Spitzer is keeping tabs on the young stars, providing data on their changing ways..

.

The hottest stars in the region, called the Trapezium cluster, are bright spots at center right. Radiation and winds from those stars has sculpted and blown away surrounding dust. The densest parts of the cloud appear dark at center left..

.

This image was taken after Spitzer's liquid coolant ran dry in May 2009, marking the beginning of its "warm" mission. Light from the telescope's remaining infrared channels has been color-coded: 3.6-micron light is blue and 4.5-micron light is orange.