Telescope: Celestron Edge HD 925

Camera: ZWO ASI120MM

Filter wheel: ZWO EFW

Filters: RGB set from Optolong

R: best 140/677 frames, 7 stacks

G: best 165/687 frames, 7 stacks

B: best 180/669 frames, 8 stacks

Processing in Autostakkert, PixInsight, WinJUPOS, and Photoshop

Jupiter was at 41° altitude and at a distance of 603 million km

CM I: 206.0° CM II: 310.8° CM III: 136.4°

The Moon shot from London on the 11th November 2019

Celestron Edge HD11 & Canon EOS 6D

Used photoshop a bit harder on this one after stacking 88 frames in registax

Celestron Omni XLT 120mm f/8 EQ 900mm Refractor Telescope

Eyepiece 6mm

Nikon D7100 Metodo proyeccion Ocular con imagen recortada.

Registax + Fistwork + PS

Single frame on a 7Dmod attached to a Celestron C8 @ F6.3 (efl = 1279mm).

© P Williamson 2016

4 November 2016

Taken near Liwa desert (Abu Dhabi)

L: 114 min (120 sec sub exp)

R: 30 min (60 sec sub exp)

G:Synth

B: 45 min (45 sec sub exp)

Camera: Atik 490ex Mono

Scope: Celestron C8, Hyperstar Lens (F/2)

Mount: Celestron CGEM DX

Filters: Astrodon

Celestron Omni XLT 102mm Refractor Telescope

1000mm focal length, F10

2X Barlow lens

single image

Celestron C9.25 EdgeHD, Barlow 1.8x, Player One Mars M II camera

The Moon imaged from London on 6th October 2016

Celestron Edge HD11, 3 panel mosaic

Registered to the D810A shot, low stretching, no star reduction or sharpening

Celestron C11, Tele Vue 2.5x Powermate, ZWO ASI462MC, Pierro Astro ADC

8min of de-rotated capture

Celestron 9.25" + Celestron f/6.3 Reducer + ZWO ASI533MC

AZ-EQ5

86X60" Optolong L-Pro

77X60" Optolong L-eXtreme

Nebulosity4

PixInsight

Photoshop CC

Backyard, Cairns, Australia

Bortle 5

seen from Krakow by Celestron XLT 1500

Celestron C9.25HD, 1.8x barlow, Player One Mars M II camea

Celestron C9.25 EdgeHD,

Player One Apollo Max mono camera.

Celestron C9.25" f/20

ZWO ASI224MC with IR cut filter

Gain = 400

Exposure = 7

Gamma off

WinJUPOS 6X120"

Cairns, Australia

Celestron C9.25

Cámara zwo 120MCS

Video AVI 30seg

Fotogramas apilados en ASIStack

Topaz Gigapixel

#celestron #celestrontelescope #celestron925 #zwo #zwoasi #zwoasi120mc #zwocameras #zwo #topazlabs

Celestron C11XLT, Player One Apollo M Max camera.

Observatorio de Puig des Molins

Aunque su construcción data de 1956, lo que lo sitúa como el más antiguo de Baleares, en 2014 sufrió una importante renovación técnica con la renovación informática de este espacio, la incorporación de un aula con capacidad para veinte personas y la adquisición de dos nuevos telescopios sufragados por el Consorcio Patrimonio de la Humanidad. Hasta entonces contaba con un solo telescopio Secretan, cedido por un vecino belga residente en la isla y que databa de los años de la Primera Guerra Mundial, que se ha convertido hoy en una pieza de exposición y que sirvió para que muchos ibicencos observasen por primera vez los planetas, la luna y las estrellas.

El telescopio principal (un Celestron C14) ha mejorado de forma muy notable las posibilidades del anterior instrumento, puesto que dispone de una apertura de 380 mm frente a los 160 del primero, lo que permite aplicar mayores aumentos en la observación sin mermar la nitidez de la imagen que se aprecia. De este modo, la contemplación (en noches con estabilidad atmosférica) de Júpiter, Saturno o de la Luna constituye un espectáculo que permanecerá grabado en la retina del observador a lo largo de su vida, según afirman desde la Agrupación Astronómica d´Eivissa.

Este observatorio no solamente está dedicado a la observación nocturna, sino que también cuenta con telescopio solar, dedicado exclusivamente a la observación del astro rey.

El Observatorio de Puig des Molins recibió durante 2019 un total de 1.900 visitantes y logró detectar varias estrellas fugaces de gran tamaño, siendo uno de los pocos centros de España capaces de registrar un bólido de brillo excepcional, más intenso que la luna llena. Precisamente, durante este año se han instalado dos nuevas cámaras de bólidos al telescopio de Cala d’Hort, a fin de complementar las tres que ya funcionan en Puig des Molins. De esta manera se cubre la totalidad del cielo de las islas pitiusas.

En 2019 se adquirió una colección de meteoritos que permanecen expuestos en el aula del observatorio de Puig des Molins. Se incorporaron un total de 14 piezas, que se irán incrementando progresivamente, y entre las que destacan materiales procedentes de la Luna, Marte y del cinturón de asteroides.

Este observatorio es visitable, como norma general, los martes y jueves por la noche y los miércoles por la mañana. Las solicitudes pueden cumplimentarse en el banner correspondiente de la web www.aaeivissa.com

Observatorio de Ses Païses de Cala d´Hort

El Consell d’Eivissa fue el promotor de la construcción, equipamiento y puesta en marcha del observatorio astronómico de Ses Païsses de Cala d’Hort, que también gestiona la Agrupación Astronómica d´Eivissa. La institución facilitó la infraestructura básica para este observatorio, adecuando y cambiando el uso de parte de las instalaciones ya existentes en el museo etnográfico de Ses Païsses de Cala d’Hort. Asimismo, adquirió el telescopio, la montura, la cámara y la infraestructura informática y de telecomunicaciones necesaria para su operación remota. El observatorio cuenta además con techo corredizo accionado electrónicamente.

En el telescopio de Cala d’Hort se efectúan también trabajos de obtención de fotografías de alta resolución, destinadas a incrementar el banco de imágenes disponibles para ir procesando estos campos. De igual manera, se ha iniciado la actividad mencionada de detección de bólidos con las dos cámaras instaladas.

En 2020 se contempla instalar un segundo telescopio en Cala d’Hort, dirigido a la observación directa y pensado para recibir visitas de institutos durante algunos días al año, con el fin de servir de complemento educativo a estos centros. Tendrá un diámetro de medio metro y permitirá la observación de galaxias, nebulosas y cúmulos lejanos gracias a su potencia y luminosidad. Este nuevo telescopio irá acompañado de la edición de una guía didáctica para reconocer los objetos observados e informarse sobre sus características principales.

Lunar crater chain Ptolemaeus, Alphonsus and Arzachel

Imaged from London on 17th March 2016

Celestron Edge HD11, ASI120M camera

Processed using AS!2, Registax6 and PS CS6

Celestron C6, 2x Barlow, ASI290MC.

2017 Solar Eclipse from Clayton GA, USA.

Celestron C8 Telescope on CGEM

Canon T3i (Modified IR enhanced)

Celestron Edge HD 800

Skywatcher AZ-EQ6 GT

Images: 80x180"

Intégration: 4.0 Heures

11/21/14

6 panel mosaic

Each panel:

LUM- 7x60 sec

RGB-5x60 sec/each

2h 12m

Telescope:11" Celestron EdgeHD+HyperStar (F/2)

Camera: QHY23M

Imagine Scope - Celestron Edge HD 1100

Camera - QSI 660wsg-8

LRGB filters - 6.7 hours total

From APOD:

Careful inspection of the full field of view for this sharp composite image reveals a surprising number of galaxies both near and far toward the constellation Ursa Major. The most striking is clearly NGC 3718, a warped spiral galaxy found near picture center. NGC 3718's faint spiral arms look twisted and extended, its bright central region crossed by obscuring dust lanes. A mere 150 thousand light-years to the right is another large spiral galaxy, NGC 3729. The two are likely interacting gravitationally, accounting for the peculiar appearance of NGC 3718. While this galaxy pair lies about 52 million light-years away, the remarkable Hickson Group 56 can also be seen clustered just below NGC 3718. Hickson Group 56 consists of five interacting galaxies and lies over 400 million light-years away.

The Moon imaged from London on the 12th May 2019

Celestron Edge HD11 scope & Canon EOS 6D camera

Lunar crater Tycho imaged on 18th February 2016 from London

Celestron Edge HD11 ASI120M camera

AS!2, REgistax6, PS CS6

Shown here on the last quarter moon, the craters Copernicus and Eratosthenes (left and right, respectively).

This photo is best seen at full size (1920 x 1024) or in the Flickr Lightbox.

Image capture done with a Celestron C9.25 Edge HD, an Astro-Physics 2X barlow, and a Sony NEX-5R digital camera (manually selected, best 39 images out of a series of 84 still captures, ISO 200, 1/15 second at an effective focal length of 5170mm).

Image processing done in AutoStakkert! 2 (stacking), PixInsight (sharpening), Photoshop CS5, and Apple’s Preview application.

All rights reserved.

Celestron C5+

Canon 60D

Tiempo de Exposición: 2 segundos

Iso: 800

F: 10

Distancia Focal: 1250 mm.

Procesado: Lightroom + Pixinsight

Guillermo Cervantes Mosqueda

Observatorio Astronómico Altaïr

Poncitlán Jalisco México

At CRO (Cheddar Ranch Observatory) one of the publicly available telescopes is a Celestron C14 edge HD, pier mounted with a CGE-Pro mount. It is located in a "roll off room" with electric winches to open the roof.

The Oklahoma City Astronomy Club is a 501(c)(3) Science Education and outreach organization. OKCAC owns and operates CRO (Cheddar Ranch Observatory). CRO is located in Western Oklahoma in a Bortle-3 zone.

This photo was taken while a full moon was rising to the East. We were at the observatory doing maintenance. You can just see the top of the 15" dome in this photo. The 15" dome houses a 30" go-to Dobsonian telescope with mirrors made by Ken Lockwood and the telescope made by Starstructure Telescopes.

I will share photos of that observatory soon.

For information and calendar to visit CRO go to www.okcastroclub.com

Celestron Edge HD 800 and CGEM mount. ADM top rail with a camera adapter holding a Sony a7rIII and adapted Canon FD 300mm f/4 L

A quick process of Jupiter and Io with 685nm IR pass filter from 4th April 2016

Celestron Edge HD11, ASI120MM, Powermate 2.5x

Processed using AS!2, Registax6 and PS CS6

Telescòpio: celestron 130 slt(130mm/f5) modificado

Montagem: celestron nexstar slt altazimutal computadorizada

Câmera: Canon sl1 modificada com filtro astrodon ad40 clear

Baader MkIII coma corretor

Filtro astronomik cls ccd eos clip

Deep sky stacker: calibração e integração dos frames

Processamento: photoshop cs2, astronomy tools, star spikes pro 3

Exposição total: uma hora

04/2016

serra negra- são paulo

Celestron C11HD, ASI174MM

Celestron Omni XLT 102mm Refractor Telescope

1000mm focal length, F10

Fifty minutes of live stacking with a Celestron Origin.

NGC7331 is about 43 million light years away while 4 of the 5 members of Stephan's Quintet are between 200 and 350 million light years away.

Celestron C6, Zwo ASI290MC, 2x Barlow. Baader UV/IR Cut.

Celestron C11 XLT, 2x barlow, Player One Neptune IIc camera. Atmospheric Dispersion Corrector.

A closeup of Jupiter and Saturn the night after their closest approach in their "Great Conjunction" of December 2020. This was the evening of December 22, with Jupiter just 10 arc minutes to the east of Saturn, with Jupiter's four Galilean moons visible and three of Saturn's moons, though just! The fainter objects in the field are stars. I added labels to this version.

This is a stack of six 4-second exposures (to bring out the moons) taken about 5:45 pm local MST. All were through the Celestron SE6 Schmidt-Cassegrain at f/10 (so 1500mm focal length) on the Sky-Watcher EQM-35 mount tracking the sky but only roughly polar aligned, and through the Canon EOS Ra camera at ISO 800, and cropped in. The planets' low altitude blurred their images from poor seeing. Atmospheric dispersion adds to colour fringing.

Celestron 9.25 @ f/20

Celestron X-Cel LX 2x Barlow

ZWO ASI224MC + IR cut filter

FireCapture (Gain = 300; Exposure = 3)

AS!3

WinJUPOS (17x90")

Celestron 130 EQ Telescope

Barlow 2x, 3x or 5x

Red or Moon Filters

Canon EOS 500D Camera

02.07 to 03.24 GMT

Blackford Hill

Edinburgh

Celestron 1100 CPC at Borrego Springs

Celestron C11, Tele Vue 2.5x Powermate, ZWO ASI462MC, Pierro Astro ADC

6 single shot colour captures taken over 8mins; de-rotated in Winjupos - Firecapture, Autostakkert, Registax & Photoshop

another attempt at processsing, the same data, but this time using much finer wavelets in Registax :D

Merseyside, UK

Jupiter and Saturn in the same telescope field on December 14, 2020, as they approached their Great Conjunction of December 21, 2020. Some of the moons are visible in this exposure taken in deep twilight before the planets got too low in the southwest. They planets were less than a degree apart, with a separation of 45 arc minutes, closing to 6 arc minutes a week later. I've added labels in this version.

This is a stack of 8 exposures with the Celestron SE6 f/10 Schmidt-Cassegrain (so 1500mm focal length), each for 5 seconds at ISO 800 with the Nikon D750. The disks of the planets are overexposed to bring out the moons. I had the Celestron SCT on the Sky-Watcher EQM-35 equatorial mount, tracking the sky. The images are stacked to smooth noise. A lot of gradient correction applied to even out the huge level of vignetting and uneven illumination from the SCT optics.

This area is known as the Deer lick group of galaxies located by Pegasus constellation, the large galaxy upper right is NGC 7331 a galaxy much like our own Milky way, and lower left is a group of galaxies known as Stephan Quantet.

Frames: 168x240" (11.2" hours) ISO-1250 taken through a 8” inch Orion newtonian astro graph, with an unmodified Canon 60d dslr, all on a Celestron AVX mount.

Processed with Deep sky stacker, Pixlinsight, Photoshop.

Telescopio: Celestron C8 Edge HD

Montatura: iOptron CEM60

Camera di ripresa: ZWO ASI 174 mono Cooled

Filtro: Optolong Red CCD 50,8 mm

Software:SharpCap 3.2 Pro, Emil Kraaikamp Autostakkert 3.0.14, Zoner Photo Studio X v. 19, Pleiades Astrophoto PixInsight 1.8, Astra Image 4 SI

Focuser: Moonlite CF 2,5" focuser with high resolution stepper DRO

Pose: 1007 a 150 ftgs

Lunghezza focale: 2032 mm

Seeing: 3 Trasparenza: 5

Sun 05/15/2016

Canon EOS 350D

Mak 127 mm

Photoshop