#Optical Filters
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hindhighvacuum · 1 year ago
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ID Ultra Coaters - Forensic Coaters
The ID or identicoat series of coaters are designed for forensic laboratories. These systems utilise a Vacuum Metal Deposition technique developed to detect fingermarks on difficult substrates such as plastic bags, bottles, sheeting etc.
For more information, Visit: https://hhv.in/
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accurateoptics · 2 years ago
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Narrow Bandpass Filter Supplier - Accurate Optics
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Are you in search of a high-quality narrow bandpass filter? Look no further than Accurate Optics, where you can get an impeccable filter at an affordable price! With over 10 years of experience in the optics industry, they know how to make sure their customers are getting nothing but the best. Make sure your next narrow pass filter purchase is from Accurate Optics!
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knotty-et-al · 10 months ago
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Icosidodecahedron and truncated icosidodecahedron - with orange and green lines and red and green filters layered on top to filter out one of the solids
That is the drawing with both polyhedra included:
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The orange lines depict the icosidodecahedron.
The green lines depict the truncated icosidodecahedron.
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Putting a green translucent sheet of foil on top (green filter) filters out the green. The orange stays visible. Hence: With the green filter you mainly see the icosidodecahedron.
Putting a red filter instead filters out the orange and the green stays visible. Hence: With the red filter only the truncated icosidodecahedron is visible.
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For drawing the icosidodecahedron I started with drawing a regular dodecahedron and "cut off" the vertices to half of each edge.
For drawing the truncated icosidodecahedron I started with an icosidodecahedron and cut off the vertices to one third of each edge.
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griltina · 7 months ago
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My name is Tina and from the Lightstar Compamy.
It's a pleasure to meet you and to introduce my company to you. Our company was founded in 2014, mainly engaged in the research and development, production and marketing of optical passive devices. The company has its own doctoral and master's research and development teams, focusing on the production of mini miniaturization, functional integration, high reliability and bias maintaining devices, with the design advantages of high-power products. Products are widely used in laser, sensing, lidar and autonomous driving fields.
Products include optical isolator, WDM, coupler, high power Circulator, polarizer, optical switch, bandpass filter and so on.
The product supports wavelength and power customization. For further information:
Please add my E-mail :[email protected] or log in to the company website :www.lightstartech.com.
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sw5w · 10 months ago
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R2's Holoprojector
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STAR WARS EPISODE I: The Phantom Menace 01:43:36
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hhvadvancedtech · 3 months ago
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Reactive Ion Etching Systems
Redefine your approach to thin film processing with our advanced Reactive Ion Etching Systems—ensuring precision, control, and excellence in every application.
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coeopticss · 9 months ago
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COE Optics, a leading optics manufacturer with the best products at low prices, with short deliveries. Some of the optics like lenses, windows, mirrors, prisms. Enquire Now!
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phillips-safety · 9 months ago
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Discover Precision with Phillips Safety's Glass Optical Filters
Unlock the world of precision optics with Phillips Safety's cutting-edge glass optical filters. From bandpass to notch filters, our diverse range caters to medical, industrial, and technological needs with unparalleled accuracy. Enhance diagnostics in medical imaging, fine-tune industrial processes, or elevate your photography with our precision-engineered filters. Experience the difference today. 
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Contact us at +1 866 575 1307 or email [email protected] to explore our comprehensive collection and revolutionize your visual clarity. Visit our website for more information on how our filters illuminate pathways to enhanced precision across industries.
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changjo2003 · 1 year ago
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Mirrored portrait of blue hydrangeas that pulls you into some kind of alternative dimension.
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internationaldayoflight · 2 years ago
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Webinar on High Performance RF Filters in a Photonic Chip.
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Photonic integration brings the promise of significant cost, power and space savings and propels the real applications of microwave photonic technology. In this paper, a multiband radio frequency (RF) signal simultaneous receiver using an optical bandpass filter (OBPF) integrated with a photodetector (PD) on a chip is proposed, which was experimentally demonstrated. The OBPF was composed of ring-assisted Mach–Zehnder interferometer with a periodical bandpass response featuring a box-like spectral shape. The OBPF was connected to a PD and then integrated on to a single silicon photonic chip. Phase-modulated multiband RF signals transmitted from different locations were inputted into the OBPF, by which one RF sideband was filtered out and the phase modulation to intensity modulation conversion was realized. The single sideband with carrier signals were then simultaneously detected by the PD. A proof-of-concept experiment with the silicon photonic integrated chip was implemented to simultaneously receive four channels of 8 GHz, 12 GHz, 14 GHz and 18 GHz in the X- and Ku-bands. The performance of the integrated microwave photonic multiband receiver—including the receiving sensitivity, the spurious free dynamic range, the gain and the noise figure across the whole operation frequency band—was characterized in detail.
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just-here-with-my-thoughts · 5 months ago
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It's Zircon Time!
(If you are the same age as me you may well have read that like you were a Power Ranger saying "It's Morphin' Time" and you wouldn't be incorrect because we're going to talk about how zircon slowly degrades from crystalline to amorphous structure over millions of years... so...)
I'm excited to tell you about gem-quality zircon!
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@theproblemwithstardust I have no idea if you're still interested but heads up I got carried away I think I wrote over 3k words about this you may need snacks and an interval
Zircon & Double Refraction
Zircon is a naturally occurring gem mineral, chemical formula zirconium silicate and crystallising in the tetragonal system. It is a uniaxial optically anisotropic gemstone (remember, optically anisotropic means light is split into two when passing through the crystal) and in its rough form occurs as elongate to squad tetrahedral crystal with bipyramidal terminations.
(What does that mean? It means it's a rectangle with two triangles at the ends, and the rectangular section might be long or short!)
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Even as a rough crystal zircon will show some of the features it is well known for - such as its sub-adamantine lustre (meaning the near-diamond-like brightness of surface reflection of white light) and (if the crystal is transparent enough) a high birefringence value means internal features are viewed as doubled.
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Woah... you just chucked a LOAD of science terms at me! What does any of it mean?
Let me tell you about double refraction in zircon! I'm so excited by it!
I'll break these terms down one at a time:-
Refraction - the bending of light as it passes through the crystal
Double refraction - two rays of light get bent at slightly different angles! (Remember that as an optically anisotropic material, zircon splits light into two rays)
Birefringence - the difference in the amount the two rays of light are bent by
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You know how when you stick a straw in a glass of water, it looks as though it is slightly bent? That's refraction at play! When light passes between two mediums of different optical densities (for example from air into water, or air into a gemstone) the light is bent. The angle is it bent by is related to the substance it passes through. We use refraction in gemmology to identify gemstones, because every stone refracts (bends) light by a different amount.
In an optically anisotropic gemstone the two rays of light are both bent by different amounts. We can measure how much each ray of light is bent by, and the difference between them, to help identify them!
Fun fact, the 2 rays of light are referred to as the ordinary ray and the extraordinary ray - that is important for identifying stones by their RI but I'm getting off topic for zircon!
The important thing in zircon is that it has Very High Birefringence. That means that the two rays of light are bent by so much that when they leave the gemstone and reach the viewer (that's you!) you see a doubled image of whatever is inside the stone - double vision!
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(If like me you wear glasses, it feels like looking at the gemstone without your glasses on - everything just sliiightly out of focus...)
If a zircon has inclusions, each of these will appear to be doubled when viewed through the crystal. Even easier to spot, and present even in an inclusion-free stone, is the doubling of the back facets of the gemstone! That's right, when you look through the stone at the pattern of facets on the other side, they will appear to be doubled.
Haang on a sec - what about the Optic Axis, I hear you ask?
An Optic Axis is a direction in an optically anisotropic gemstone in which light behaves as though it is passing through an optically isotropic material. That's a material where light travels as a single ray rather than splitting into two - so when viewed from the right angle, a zircon crystal will let light pass through as a single ray, and you won't see any double refraction at all!
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Fun fact! In a uniaxial crystal, there is one optic axis and it is always parallel to the c-axis (the long dimension of the crystal).
This is all pretty neat, right? If you want your colourless zircon crystal to pass as a diamond imitation, it should be cut with the table perpendicular to the c-axis. That way, when you look straight down at the top of the stone, you won't see any of that dizzying eye-visible double-refraction - diamonds are optically isotropic, so they only ever transmit a single ray of light :)
(I mean there are tons of other ways to differentiate diamond and zircon, but at a glance, it would make for a better imitation...)
Metamict Zircon
Wouldn't it be great if zircon were always so easily identifiable in part due to its high birefringence? Not a lot of stones that have eye or loupe visible birefringence - most of them are much smaller values (ie. the difference in the angle the two rays of light are bent at is much smaller)
Sad news for you friends, but zircon does not always stay in this nicely ordered highly crystalline state, behaving as a tetragonal optically anisotropic crystal should.
You see, the thing that gives zircon it's colour is Uranium. That's right, radioactive uranium!
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And even when it is only present as a few ppm (parts per million) in the zircon structure, the radiation emitted by those atoms is enough to start breaking through the bonds between other atoms in the zirconium silicate structure, and slowly but surely the structure of zircon is transformed from highly organised crystalline bonds, to irregular and disorganised amorphous atomic arrangement.
Why am I talking about this off the back of birefringence values?
Because amorphous materials are optically isotropic - that is, light behaves the same in all directions. No more double refraction!
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(In case you haven't noticed yet you are actually taking a stroll through the gemmology section of my mind and encountering Related Thoughts in the exact order in which they are stacked and catalogued in my Mental Shelves, I hope you are keeping up but hit me up in the comments or reblogs if you need me to circle back to anything?)
But! I hear you cry - if you identify zircon by it's birefringence, how do you tell it's zircon when it's altering to an amorphous state?
When zircon becomes amorphous - also known as becoming metamict, it doesn't suddenly change all at once. There will be areas of crystalline structure interspersed with amorphous areas. When viewed with a 10x loupe, this gives the stone a hazy or grainy internal appearance. Although many gemstones show various types of zoning, the hazy zoning associated with metamict zircon is quite distinctive.
The colour of zircon also changes during this breakdown of the crystal structure, becoming a greenish colour instead of the usual browns, reds, yellows.
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Heated zircon can be colourless or even bright blue - I kinda assume they would follow the same path when becoming metamict but can't say for sure! That said, I know from my own experimentation that heated blue zircon goes a murky grey-brown on exposure to UV, so perhaps it really is all the same process :)
Diagnostic Absorption Spectra in Zircon
What if the zircon is completely metamict? What if there is no birefringence at all, and you can't be certain that the haziness inside the stone is identifiable as hazy zoning?
Well, don't forget that a lot of gemmological identification involves combining different observations and test results - it's very rare to be able to do a single test and say "THIS. It's definitely THIS."
That said... there is a test we can do on zircon which provides a diagnostic result, even in the absence of all other tests!
We can check the Absorption Spectrum!
Holllllld up... better go over what we mean by Absorption Spectra.
When white light passes through a gemstone, it is modified via absorption...
Wait, go back a bit further.
White light is actually made up of light of all coloured wavelengths from 400nm (violet) to 700nm (red) - this is called the 'visible light spectrum' as these are the wavelengths the human eye can detect!
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When all colours of light at once reach the human eye, the mind interprets it as 'white' light.
When the colour is modified because one or more wavelengths are removed, we then start to perceive colour.
For example, when light passes into a corundum crystal coloured by chromium, most violet, some blue, and all green and yellow and some orange light is absorbed. The resulting colour you see, made up from transmitted red and a little blue light, is red!
By the way, the absorption I just described is for ruby! :)
BACK TO ZIRCON!
The uranium in zircon causes a unique absorption which can be viewed with a spectroscope. Many gemstones, even colourless ones, show various absorption spectra. Relatively few show a diagnostic absorption spectra, which has a pattern of absorption unique to that gem species and colouring element. Although you should always back up your gemstone identifications with multiple pieces of evidence, with a diagnostic feature you can make a positive identification of gem species even in the absence of other information.
So what does zircon's diagnostic absorption spectrum look like?
Well, that can vary depending on whether it is high (crystalline) zircon or low (metamict) zircon, and whether it has been heat-treated to alter it's colour!
The defining feature in all types of zircon is a diagnostic absorption line at 653nm (about half-way along the red area of the spectrum).
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In heat-treated colourless or blue zircon, this may be the only absorption line present.
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In other zircons, as well as the 653nm line, you will see up to 40 other absorption lines or bands scattered throughout the spectrum.
(Oh backtrack a moment again! When viewing the absorption spectra, the black lines are the wavelengths that are being absorbed :) Please do remind me to tell you this stuff, I forget because I Thought It Was Obvious (as Tech would say) but I'm doing my best to cover the basic science as well as gemmology here)
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Metamict zircon still shows a diagnostic absorption spectra, including the line at 653nm. However, many of the absorption lines and bands have become distinctly fuzzy-looking - this is another helpful piece of evidence to determine whether you are looking at high zircon or metamict zircon.
(Still here, team? I have been writing for 2 hours and we're 1700 words deep, so take a break if you need it, hydrate or diedrate... save this post for later... close the tab and back slowly away from the screen because you didn't realise you were getting into all this when you clicked below the read-more...)
Toughness and Dispersion
Other features of zircon that are important when considering its use as a gemstone are it's relatively high hardness, but low toughness.
Hardness and toughness? Aren't they the same thing?
No :D
Hardness (in gemmological terms) relates to the ability of a material to resist being scratched when the sharp point of another material is dragged across the surface. Zircon has a Moh's Relative Hardness rating of 8/10 - that's pretty good resistance to being scratched!
However, it has Low toughness. Toughness relates to the ability of a material to resist being fractured or cleaved as a result of physical impact. In short, zircon chips easily. When faceted as a gemstone, it tends to chip along the sharp edges between the facets, accumulating numerous small fractures which are described cumulatively as 'nibbled facet edges'.
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Remember when I said there were numerous other ways to tell the difference between diamond and zircon? This is one of them! You would not expect to see wear like this to a diamond - however, unless your zircon has been very well cared for, you would expect the facet edges to show a certain amount of abrasion due to its low toughness... and yes, if you view those chips through the crystal, they will appear to be doubled due to the high birefringence :)
Other features of zircon include a high Dispersion Index.
Dispersion is the splitting of white light into its spectral wavelengths when passing through two inclined surfaces of a transparent material (think the Pink Floyd Dark Side of the Moon prism splitting the single ray of white light into the rainbow!)
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Guess what? When you facet a gemstone, it almost always has two inclined surfaces of transparent material! In gemstones with a high Dispersion Index, you will see more dispersion - that is, when you tilt them, you will see more flashes of coloured light (blue, green, red) sparkling back at you from the facets than a gemstone with a low dispersion index.
You can see dispersion even in gemstones with a body colour - they don't have to be colourless to see it! That said, it can be harder to spot some of those dispersed colours against the body colour - so this feature may be more prominent in colourless or light coloured zircons than in deeper colour samples.
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Aaaaaaaand I think that's it? At least, I think that's everything I wanted to cover with you about gem-quality zircon today!
BUT WAIT!
The fun's not over :P
I'm pretty sure I promised a comparison between naturally occurring zircon, and common artificial material cubic zirconia!
(Just when you thought you were free...)
Natural vs. Artificial
Zircon is a naturally occurring, crystalline, inorganic mineral formed by natural processes. Don't forget, the chemical formula is Zirconium Silicate and it crystallises in the tetragonal system.
Cubic Zirconia (shortened to CZ) is an artificial crystalline material grown by man. The chemical formula is Zirconium Oxide and it crystallises in the cubic system.
Notice how I say artificial, not synthetic? That's an important distinction.
Synthetic materials have a direct comparison in nature. All synthetic gemstones are artificially grown, but not all artificial materials are considered synthetic.
To be classified as a synthetic gemstone, the result of the artificial growth process must be chemically, physically and optically identical to the naturally occurring mineral.
Cubic Zirconia has no natural counterpart. It is completely artificially created. Hence, it can be referred to as artificial or as a simulant (meaning it is simulating/imitating another natural material).
Cubic Zirconia
CZ is grown via the incredibly metal sounding process of SKULL MELTING
Fun fact! CZ has a higher melting point than any material you could make a crucible of to melt it in. So when we make it, we have to melt it inside a skin, or 'skull', of solid CZ, with a liquid inside. We can go into the science another time if you like, but the quick version is it's like heating up lasagne in the microwave, and the middle gets hot whilst the edges are still cold... that's how we melt the centre of the CZ mix whilst keeping in in a cooled skull of its own solid material :)
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Above a certain temperature (I want to say off the top of my head with a melting point in excess of 2600 degrees Celsius), zirconium oxide adopts a cubic arrangement - nice and symmetrical, and optically isotropic (light moves as a single ray and behaves the same in all directions). However below temperatures of around 2000 degrees Celsius, zirconium oxide would crystallise in the monoclinic system. Woaaah! That's not terribly symmetrical! We want it to be cubic zirconia, the same in all directions.
To stop the zirconium oxide mix from changing to a monoclinic arrangement as it cools, we need to introduce a stabilising element. Most often this is a rare earth element such as yttrium, which bonds with the zirconium oxide structure and forces it to retain its cubic arrangement even at lower temperatures. Cool, right?
(ahaha I didn't mean to make that joke... cool... cos we're cooling the mixture... it's late and I've been typing for a long time now I hope you're still with me...)
Fun fact, due to it's super high melting point, you actually need to start the melting and recrystallisation process by inserting a thin wafer of pure zirconium into the ingredient mix inside the Skull. This can then be melted, which will then oxidise, and start a chain reaction of melting and bonding with the surrounding material :)
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CZ Optical Behaviours
CZ is cubic, meaning it is optically isotropic, so you will only have single refraction (a single ray of light transmitted) no matter which direction you view the stone in.
This is enough to differentiate it from zircon, which is optically anisotropic with high birefringence, but what about diamond, the gemstone that CZ so frequently imitates?
Don't worry - we can again look at features such as the absorption spectra, and hardness/toughness as well as lustre to tell the difference.
The lustre (surface reflection of white light) of CZ is lower than that of diamond (adamantine) or zircon (sub-adamantine). I want to say CZ is bright vitreous (bright glasslike)? So with practice you will learn when the surface reflection just doesn't seem quite bright enough to be diamond...
(It's bothering me that I skipped the formal lustre definition earlier so here it is now: lustre is the quality and quantity of white light returned via reflection from the surface of the gem material towards the viewer)
CZ has a really high dispersion index - that's the splitting of white light into its spectral colours, remember, the coloured sparkles you see when you move the stone! CZ has a dispersion index even higher than diamond, so if the stone seems to be returning too many sparkles of colour... it's probably too good to be true.
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CZ also grows free of inclusions, and the absence of internal features is a huge warning sign that you're looking at an imitation rather than a diamond!
As well as these optical features, CZ will also show surface features to differentiate it from zircon or diamond. The facet edges even in well-cut stones are typically rounded and soft, and although they don't tend to accumulate the 'nibbled' look of chipped zircon, the facets can be scratched - typically picking up a 'frosted' look if they are particularly heavily worn.
Remember when I mentioned using yttrium or a similar element to force the zirconium oxide mix to retain it's cubic structure? That's what causes the absorption spectra in CZ!
CZ shows a REE (rare earth element) spectra. It's not diagnostic like a zircon spectra is, but it is highly characteristic. Both coloured CZ and colourless can show it - REE spectra typically manifest as clusters of many fine absorption lines mostly distributed in the yellow-green area of the spectrum.
Iiiiiii think I might actually be done now (except the zircon vs CZ comparison strayed into grounds of differences between diamond and its common simulants so I'm trying not to get doubly triply side-tracked into synthetic moissanite which is ALSO doubly refractive with loupe-visible doubling of internal features due to high birefringence and only gets to old the term 'synthetic' on a technicality because naturally it is almost impossible to find gem-quality moissanite outside of rare meteoric impact events...)
(Guess what synthetic moissanite is silicon carbide crystallising in the hexagonal system and is created by a process known as sublimation - where a material goes from solid to gaseous or plasma state (or back) without passing through a liquid state in between!)
Hmm I realise by the time I post this I will have added photos but I think I'll save as a draft for now and maybe sleep before I do that... **Photos added now! Microscope still not set up so you have to make do with my internet searching, sorry
I hope you have enjoyed today's citizen science gemstone lecture brought to you by the ability to recall memorised information without checking my notes and the parasocial relationship I have projected onto you, the Tumblrites, hoping that you will love the science side of gemstones as much as I do!
just-thoughts-about-gems (this is the place to ask your gemstone questions)
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accurateoptics · 11 months ago
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Bandpass Filter Coating Provider - Accurate Optics
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Are you looking for a reliable Bandpass Filter Coating provider? Accurate Optics sets the benchmark for precision and quality in optical coatings. Connect with us at +91 9888877542 to explore our comprehensive range of solutions tailored to elevate your optical systems.
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quixotical-lymbo · 2 months ago
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Pairing: Orion Pax x gn!Reader Rating: SFW Summary: Why did you agree to join Orion on a day out which promised a 'fun' time?  Warnings/Tags: SPOILERS for the transformers one movie, cybertronian reader, running from the law, awkward first kiss, forced bonding/j, flirting, banter, humor, acquaintances to friends to…?, and fluff.  Word Count: 1300+ words 
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"...find anything yet?" 
You jumped and juggled the recording in your servos. Gasping as it slipped between your digits a few times before you had a firm hold on it with both servos. You glared at the mech hanging over your shoulder, who rose his servos as he backed up from you. 
"No, nothing yet," You answered as you carefully placed the recording back in its original spot. Your optics ran over the many shelves and cases full of records, a huff left you as you turned to ask, "You?" 
"None," Orion took out a recording and discarded it carelessly. 
"...you know we should probably go," You stepped away from the shelf and approached Orion's back. You stopped just a few steps away from him, peering around his arm to see the mech filtering through the piles on the table. "Before we get caught again." 
"We won't get caught, stop being a wuss," Orion reassured with a laugh. 
"Hey! What are you two doing over there? Wait, is that Orion Pax again?!" 
The two of you shared horrified looks before scrambling from the records as the shouting officers demanded you two to stop. 
"I told you we would get caught!" You blew your top as you sprinted beside Orion. 
"And I'm telling you we won't-!" Optimus turned a corner and grunted when he slammed against a wall. 
"Dead end?" Optimus glanced up and saw the vents were boarded up. "Damn, they really prepared this time." 
"See? See? This is exactly why I should've listened to D to not come with you," You shook your digit at Orion before dropping your face into your palm. "We are going to get demoted for sure." 
"...halt!"
The approaching voices caused you to fret even more, but Orion was immune to the panic as he focused on finding a way out of this. He glanced around the corridor before his optics landed on a window. 
You felt something grab your wrist and before you could squeal you were pulled along. Your optics fell on the window that Orion was leading the both of you to and you began shaking your helm frantically. 
"No, no, no, don't you da-!" 
"Too late for that!" Orion pulled you close and shielded your frame with his as he rammed through the glass. 
A scream ripped from your intake as the two of you pummeled toward the ground, other cybertronians and the like zooming past the two of you.
Fortunately, the two of you landed on an overhang attached to a wall, the force ricocheted you both into breaking another window and falling inside of a building. Orion rolled with you in his arms for a few seconds until he rolled onto his back, then he unwrapped his arms from you. 
Out of breath and gasping for air, You and Orion gawked at each other for a moment before a giggle left your dermas. Orion couldn't hold back anymore and also broke out a fit of chuckles while you weakly dismounted from him and sat on the ground. Your optics observed the broken pieces of glass that led to the elevated window you two entered from.
It….was really high up, not even Orion seemed tall enough to reach it. 
 
"What did I say? We wouldn't get caught and here we are now! Not getting screamed at or forced to work another long hour of-" Orion faltered as did his optics observing your back. Him seeing your shoulders slump as well as the lack of your usual taunts spooked him. 
"...___? Is something wrong?" Orion got off of the ground and joined you by your side. He placed a servo on your shoulder and leaned forward to gauge your reaction. 
"Pax…" You began. "We're trapped." 
"What?" Orion's optics widened. 
"Look." 
So he did and he didn't like what he saw. 
Orion examined the building they were in and how dark it was. There wasn't any light sources other than the light streaming in from the window. Everything else was boarded up and the room appeared…abandoned to say the least. 
There were a few boxes and carts here and there, but other than those things it was fairly empty. 
"Scrap," Orion hissed. "Look, ___, I-" 
He turned to you and shut his trap up when you held up a servo. 
"It's fine, I expected things to go to scrap the moment I agreed to go on this 'outing,'" You curled your digits to make the 'quote-on-quote' gesture before dropping your arms. You turned on your heel strut and walked over to the nearest wall and slid down onto your aft. Orion watched you go, his face twisting with a flurry of emotions before he decided to sit beside you with his legs stretched out. 
"..." You couldn't find the strength to speak or entertain a conversation now of all times. You didn't hate Orion, or find him that annoying like every other bot did. In fact, you liked him, more than you were willing to admit to his face or D's (who had an inkling and brought it up one time–but you quickly shut that down before his smug ideas could land you in trouble). You curled your knees to your chassis and burrowed your helm in your arms.
"..."
"Soooo…you come here often?" 
You raised your helm enough to peek your optics out and give Orion a look.
He smiled back. 
"Yeah, I come here all the time when I want to avoid dumb idiots like a certain red and blue mech," You shot back as your tone came out harsher than intended. 
Orion halfheartedly giggled before shooting you with another ridiculous response, "I'm pretty positive that the red and blue mech doesn't mean any harm…and he's very very sorry." 
You couldn't hide the smile growing on your faceplate. Rolling your optics and making contact with the bigger mech's face, you played along with his game. "Oh, is that so? Because I don't think bringing me to a dark, scary place is an ideal first date I'd imagine us going on."
It was Orion's turn to look at you. Stunned as his cheeks flushed with a light hue. 
 "Well, I, uh…" 
You looked away and smirked at your win. Even if he laughed it off or rebuffed you, it was nice that you could make him shut up for once. 
"...I could take you somewhere nicer…for next time." 
You almost had a whiplash from how fast your helm turned on your shoulders. You studied Orion's face for any signs of this being some cruel joke, but nothing prepared you for the soft expression and heated gaze that allowed you to drink in all of its vulnerability. 
Oh….oh.
"I'd love that," You admitted, optics shying away from his intense gaze. You unfurled from the ball you curled in and placed your servos on the ground.  A relieved sigh rumbled from Orion's chassis as he turned his gaze to stare off into space, his servo slowly inching away from his side and toward yours. 
You flinched when something tapped your pinkie, you peeked down and saw Orion's digit nudging against yours. Your dermas curved as your faceplate was set ablaze, you hooked your digit around Orion's—who in turn interlocked your servos together. 
The two cybertronians glanced up from their joined limbs and stared into each other's optics. 
Time slowed as the two of you leaned forward, you could practically hear each other's sparks beating wildly as the gap sealed with a kiss.
His dermas gently pressed against  yours, his other servo cupped the back of your helm and your own rested on his chassis. The kiss was soft and a bit awkward as Orion's forehelm knocked into yours a few times. Nevertheless, it was a wonderful experience. 
As you tilted your helm to deepen the kiss-
A loud bang caused the two of you to separate and stare at the two guards who blocked the only exit of the place. 
"EW! Public displays of affection and breaking into an official building is not allowed!" 
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😼 - I do not give permission for anyone to translate, copy, republish, or plagiarize any of my written works. I provide no permission for any of my literary works to be used in artificial intelligence. star banner by @enchanthings !!
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cmferesearch · 2 years ago
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sw5w · 1 year ago
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The Shields are Gone
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STAR WARS EPISODE I: The Phantom Menace 00:26:15
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hhvadvancedtech · 4 months ago
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Optical Filters Suppliers
HHV Advanced Tech sets the standard for clarity in medical devices with our optical filters. Experience precision and innovation from trusted optical filter suppliers.
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