View allAll Photos Tagged Embryo
ランディングポイントすぐの灯台の中です。もう少しで完成するよ!(灯台の中だけな!)
そのほかは,まだまだだ!すまぬ!www
※工事中だけど開いてます。
少しだけ,大昔に作った作品を飾ってみたりして。懐かしいな。
The images composing this picture are real outcomes of the data collected and analysed by the CMS experiment at the Large Hadron collider (CERN).
The basket is made of sections of the CMS detector.
Four of the eggs are painted with diagrams resembling explosions: these are real "event displays", computer visualizations of how the many products of a proton-proton collision leave tracks through the detector.
The waving lines on the other three eggs are not casual decorations either: they are real distributions of "invariant-mass" values, obtained by interpreting the tracks as pairs of muons coming from the decays of heavier particles. The peaks in these distributions represent specific particles that are commonly observed inside the collision events: their names are eta, rho, omega, phi, J/psi, psi(2S), Upsilon(1S), Upsilon(2S), Upsilon(3S) and Z boson.
All these beautiful patterns are "ordinary" observations in the everyday work of many CMS collaborators, in their quest for understanding Nature.
Happy Easter!
Trying to make sense of the sand patterns on Fascadale beach, Ardnamurchan. I have some predictions, not nice ones, for the world. Based on tea leaves. They don't bear thinking about
I'm feeling very un-motivated and sort of blah. So I was looking at older shots I have on one of my other HD's...this was taken at Embroyo when it had a winter theme. Photo was taken using an Emerald windlight setting to give the atmosphere effect.
Location: Embryo (winter 09)
Photo: Zeeva Quintessa
[Better viewd Large]
"If someone puts all their eggs in one basket, they put all their efforts or resources into doing one thing so that, if it fails, they have no alternatives left."
From Collins Cobuild English Dictionary
FirestormViewer
sky Setting=Places-Embryo
※模様替え中です。でも入れます。
木を作りたいと昔から思っていました。へたっぴだけど(´;ω;`)なんとPRIM数約500……ぐすん。でも,満足です。
The Embryo sim keeps pulling me back for more photography. The quality of the build is just so lovely--love this steampunk waterwindtower. It made me want to rust the sky :)
IC 1848, also known as “The Soul Nebula, ”The Embryo Nebula,” Sharpless 2-199, LBN 667, and Westerhout 5, is an emission nebula with an associated cluster of young hot stars located ~6,500 light-years away in the constellation of Cassiopeia. IC 1848 actually refers to an open cluster embedded in the nebula but is most often used to identify this target.
This image results from 6.8 hours of narrowband data and is rendered in the SHO Hubble Palette.
The data collection began over two nights ending in October - the 21st and the 22nd. This capture session ended by illness, and at that time, I did not yet have sufficient data to make processing worthwhile. So I waited until I had another clear night - which turned out to be a month later on Nov 23. At that time, I could collect another three hours of data.
This image was shot on my Askar FRA400 Scope platform, which sports the classic ZWO ASI1600MM-Pro camera.
What makes this project a little unusual is that I was using an Ioptron CEM26 mount for the two nights in October, and by the time the chance for more data collection came around, I had shifted the platform over to a new ZWO AM5 Harmonic Mount!
I have to admit that I was a little nervous making this switch as I had no personal experience with harmonic mount technology, and the AM5 is a new design from an outfit that is not known for mounts. Another concern was that I know ZWO components work well within their ASIAIR ecosystem, but I would be using the ASCOM software platform and a laptop to drive things, and I was not sure in what state I would find their driver software.
I was very happy with how things worked out! I was measuring an RMS error of 0.38 - the best error I had ever achieved with a mount! More details can be seen in the main post link below.
The image was processed by using a Synthetic Computed Luminance image and extensive use of starless processing workflows. With this approach, the luminance processing path is designed to enhance detail and sharpness, while the color processing path is dedicated to producing good color and low noise. The two images are then folded together to create a final image that inherits the best attributes of both images.
The full story behind this image, along with a detailed processing walkthrough, can be found at:
cosgrovescosmos.com/projects/ic1848-11-23-22
A video of the blink analysis for this data is also available if interested:
Finally, a video on my YouTube channel provides an additional introduction and discussion around this imaging project:
Please consider liking and following my fledgling YouTube channel! ( If nothing else you can laugh at my attempts to learn the video side of things!)
Thanks for looking!
Pat