Collimating a Schmidt-Cassegrain - colimation
LWIR
Apr 11, 2023 — It can generate topographical maps, which can be used for drainage information or for biomass calculations, It can be useful in checking ...
With a focus on engineering flexible lighting solutions, Metaphase integrates the latest LED, thermal management, optics, and electronic technologies into their ...
46mm Hoya Neutral Density 8x (ND8) HMC Filter 8x = ND.9 (Exposure Adjustment = 3 Stops, Reduces ISO 1/8) Enables Slow Shutter Speeds Decreases Depth of Field ...
Swirmwir lwir
Cite:M. N. Polyanskiy. Refractiveindex.info database of optical constants. Sci. Data 11, 94 (2024)https://doi.org/10.1038/s41597-023-02898-2
NIRSWIR
Book Ag (Silver) Al (Aluminium) BeAl2O4 (Beryllium aluminate, chrysoberyl) BeAl6O10 (Beryllium hexaaluminate, BHA) CaGdAlO4 (Calcium gadolinium aluminate, CALGO) CaYAlO4 (Calcium yttrium aluminate, CALYO) MgAl2O4 (Magnesium aluminate, spinel) Ar (Argon) AlAs (Aluminium arsenide) GaAs (Gallium arsenide) InAs (Indium arsenide) CdGeAs2 (Cadmium germanium arsenide) ZnSiAs2 (Zinc silicon arsenide) Au (Gold) B (Boron) BaB2O4 (Barium borate, BBO) BiB3O6 (Bismuth triborate, BiBO) LiB3O5 (Lithium triborate, LBO) CsLiB6O10 (Cesium lithium borate, CLBO) LuAl3(BO3)4 (Lutetium aluminium borate, LuAB) Be (Beryllium) Bi (Bismuth) AgBr (Silver bromide) CsBr (Cesium bromide) KBr (Potassium bromide) LiBr (Lithium bromide) NaBr (Sodium bromide) RbBr (Rubidium bromide) TlBr (Thallium bromide) C (Carbon, diamond, graphite, graphene, carbon nanotubes) B4C (Boron carbide) SiC (Silicon carbide) TiC (Titanium carbide) Ti3C2 (Ti3C2 MXene) VC (Vanadium carbide) CaCO3 (Calcium carbonate, Calcite) CaMg(CO3)2 (Calcium magnesium carbonate, Dolomite) Ca (Calcium) Ce (Cerium) AgCl (Silver chloride) CsCl (Cesium chloride) CuCl (Cuprous chloride) KCl (Potassium chloride) LiCl (Lithium chloride) NaCl (Sodium chloride) RbCl (Rubidium chloride) TlCl (Thallium chloride) Co (Cobalt) Chromium (Cr) Cs (Caesium) Cu (Copper) Er (Erbium) Eu (Europium) BaF2 (Barium fluoride) CaF2 (Calcium fluoride) CeF3 (Cerium trifluoride) CsF (Cesium fluoride) GdF3 (Gadolinium fluoride) KF (Potassium fluoride) LaF3 (Lanthanum fluoride) LiF (Lithium fluoride) LiCaAlF6 (Lithium calcium aluminum fluoride, LiCAF) MgF2 (Magnesium fluoride) NaF (Sodium fluoride) PbF2 (Lead difluoride) RbF (Rubidium fluoride) SF6 (Sulphur hexafluoride) SrF2 (Strontium fluoride) ThF4 (Thorium tetrafluoride) YbF3 (Ytterbium trifluoride) YLiF4 (Yttrium lithium fluoride, YLF) Fe (Iron) BiFeO3 (Bismuth ferrite, BFO) Ge (Germanium) Bi4Ge3O12 (Bismuth germanate, BGO) Bi12GeO20 (Bismuth germanate, BGO) Pb5Ge3O11 (Lead germanate, PGO) H2 (Hydrogen) D2 (Deuterium) NH3 (Ammonia) MgH2 (Magnesium hydride) TiH2 (Titanium hydride) He (Helium) Hf (Hafnium) Hg (Mercury) Ho (Holmium) CsI (Cesium iodide) KI (Potassium iodide) LiI (Lithium iodide) NaI (Sodium iodide) PbI2 (Lead iodide) RbI (Rubidium iodide) LiIO3 (Lithium iodate) In (Indium) Ir (Iridium) K (Potassium) Kr (Krypton) Li (Lithium) Lu (Lutetium) Mg (Magnesium) Mn (Manganese) Mo (Molybdenum) CaMoO4 (Calcium molybdate) PbMoO4 (Lead Molybdate) SrMoO4 (Strontium molybdate) N2 (Nitrogen) AlN (Aluminium nitride) BN (Boron nitride) GaN (Gallium nitride) Si3N4, SiN (Silicon nitride) TiN (Titanium nitride) VN (Vanadium nitride) Na (Sodium) Nb (Niobium) KNbO3 (Potassium niobate) LiNbO3 (Lithium niobate) Ne (Neon) Ni (Nickel) O2 (Oxygen) Al2O3 (Aluminium sesquioxide, Sapphire, Alumina) BeO (Beryllium monoxide) CO (Carbon monoxide) CO2 (Carbon dioxide) CuO (Copper monoxide) Cu2O (Copper(I) oxide) Dy2O3 (Dysprosium sesquioxide) Fe2O3 (Iron sesquioxide, Hematite) Fe3O4 (Iron(II,III) oxide, Magnetite) GeO2 (Germanium dioxide, Germania) H2O, D2O (Water, heavy water, ice) HfO2 (Hafnium dioxide, Hafnia) Lu2O3 (Lutetium sesquioxide) Lu3Al5O12 (Lutetium aluminium garnet, LuAG) MgO (Magnesium monoxide) MoO3 (Molybdenum trioxide) Nb2O5 (Niobium pentoxide) Sc2O3 (Scandium sesquioxide) ScAlMgO4 (Magnesium aluminate scandium oxide, SAM, SCAM) SiO (Silicon monoxide) SiO2 (Silicon dioxide, Silica, Quartz) Ta2O5 (Tantalum pentoxide) Tb3Ga5O12 (Terbium gallium garnet, TGG) TeO2 (Tellurium dioxide) TiO2 (Titanium dioxide) VO2 (Vanadium dioxide) WO3 (Tungsten trioxide) Y2O3 (Yttrium sesquioxide) Y3Al5O12 (Yttrium aluminium garnet, YAG) Yb2O3 (Ytterbium sesquioxide) ZnO (Zinc monoxide) ZrO2 (Zirconium dioxide, Zirconia) Os (Osmium) AlPO4 (Aluminium phosphate) BP (Boron phosphide) CdGeP2 (Cadmium germanium phosphide) GaP (Gallium phosphide) InP (Indium phosphide) ZnGeP2 (Zinc germanium phosphide, ZGP) KH2PO4 (Potassium dihydrogen phosphate, KDP) KTiOPO4 (Potassium titanyl phosphate, KTP) NH4H2PO4 (Ammonium dihydrogen phosphate, ADP) RbTiOPO4 (Rubidium titanyl phosphate, RTP) Pb (Lead) Pd (Palladium) Pr (Praseodymium) Pt (Platinum) Rb (Rubidium) Re (Rhenium) Rh (Rhodium) Ru (Ruthenium) Ag3AsS3 (Silver arsenic sulfide) AgGaS2 (Silver gallium sulfide, AGS) As2S3 (Arsenic trisulfide) BaGa4S7 (Barium gallium sulfide, BGS) CS2 (Carbon disulfide) CdS (Cadmium sulfide) CdGa2S4 (Cadmium gallium sulfide) CuGaS2 (Copper gallium sulfide) EuS (Europium sulfide) GaS (Gallium sulfide) HgS (Mercury sulfide) HgGa2S4 (Mercury gallium sulfide) LiGaS2 (Lithium gallium sulfide, LGS) MoS2 (Molybdenum disulfide) NiPS3 ( Nickel phosphorus trisulfide) PbS (Lead sulfide) PtS2 (Platinum disulfide) ReS2 (Rhenium disulfide) SnS2 (Tin disulfide) TaS2 (Tantalum disulfide) WS2 (Tungsten disulfide) ZnS (Zinc sulfide) CaSO4 (Calcium sulfate) AlSb (Aluminium antimonide) GaSb (Gallium antimonide) InSb (Indium antimonide) Sc (Scandium) Se (Selenium) AgGaSe2 (Silver gallium selenide, AGSe) As2Se3 (Arsenic triselenide) BaGa2GeSe6 (BGGSe) BaGa4Se7 (Barium gallium selenide, BGSe) Bi2Se3 (Bismuth selenide) CdSe (Cadmium selenide) GaSe (Gallium selenide) HfSe2 (Hafnium diselenide) In2Se3 (Indium selenide) MnPSe3 (Manganese phosphorus selenide) MoSe2 (Molybdenum diselenide) NbSe2 (Niobium diselenide) PbSe (Lead selenide) PdSe2 (Palladium diselenide) PtSe2 (Platinum diselenide) SnSe (Tin selenide) SnSe2 (Tin diselenide) TaSe2 (Tantalum diselenide) Tl3AsSe3 (Thallium arsenic selenide, TAS) WSe2 (Tungsten diselenide) ZnSe (Zinc selenide) ZrSe2 (Zirconium diselenide) Si (Silicon) Bi12SiO20 (Bismuth silicate, BSO) Sn (Tin) Sr (Strontium) Ta (Tantalum) KTaO3 (Potassium tantalate) LiTaO3 (Lithium tantalate) Te (Tellurium) CdTe (Cadmium telluride) Ge2Sb2Te5 (Germanium antimony telluride, GST) MoTe2 (Molybdenum ditelluride) PbTe (Lead telluride) WTe2 (Tungsten ditelluride) ZnTe (Zinc telluride) ZrTe5 (Zirconium pentatelluride) Ti (Titanium) BaTiO3 (Barium titanate) Bi4Ti3O12 (Bismuth titanate, BTO) PbTiO3 (Lead titanate) SrTiO3 (Strontium titanate, STO) Tm (Thulium) V (Vanadium) YVO4 (Yttrium orthovanadate) W (Tungsten) CaWO4 (Calcium tungstate) ZnWO4 (Zinc tungstate) Xe (Xenon) Yb (Ytterbium) Zn (Zinc) Zr (Zirconium)
PART. FUNCTION. 1. Ocular lens/ eyepiece. -magnifies 10x. 2. Body tube/ocular tube. -keeps proper distance between eyepiece and objective lenses.
200 West Street, 4th Floor East 02451 Waltham MA, United States
H. H. Li. Refractive index of alkaline earth halides and its wavelength and temperature derivatives. J. Phys. Chem. Ref. Data 9, 161-289 (1980) and references therein. * Sellmeier formula is derived by critical analysis of experimental data from several sources.
Digital tools or software can ease your life as a photonics professional by either helping you with your system design or during the manufacturing process or when purchasing components. Check out our compilation:
Mid infrared
by A Zamkah · 2020 · Cited by 111 — Another aspect to be taken into consideration is the use of antistress hormones as biomarkers for stress as they are involved in the body's ...
02.04.2022 - Technologies like MEMS and Silicon Photonics benefit from the extended capabilities of SWIR microscopy. A Whitepaper from Qipotiq explores applications like semiconductor inspection and fluorescence microscopy in further detail and how SWIR microscopes, like the Optem FUSION modular microscope, offer a flexible advantage in SWIR imaging.
temicon microlens arrays are made using a combination of lithographic processes and reflow processes, making a very wide variety of spherical lenses possible.
SonySWIR
Digital tools or software can ease your life as a photonics professional by either helping you with your system design or during the manufacturing process or when purchasing components. Check out our compilation:
SWIRVision Systems
Nov 18, 2020 — Parts of a Compound Microscope Each part of the compound microscope serves its own unique function, with each being important to the ...
contrast resolution ... Contrast resolution in radiology refers to the ability of any imaging modality to distinguish between differences in image intensity. The ...
Shelf MAIN - simple inorganic materials ORGANIC - organic materials GLASS - glasses OTHER - miscellaneous materials 3D - selected data for 3D artists
Reacted Zinc provides 54 mg of highly-absorbed zinc, ideally formulated using the amino acid chelate form of zinc (zinc glycinate) for enhanced absorption, ...
The alignment of the molecules on the polarizing filter results in the degree of polarization, or efficiency, of a polarized lens. When we make SunRx lenses ...
The ushering in of the new digital era (Fourth Industrial Revolution) and a hyper-connected society has accelerated in recent times through necessity as our society rapidly embraces digitalization for remote working, education, telehealth, video-conferencing and many other aspects of our daily lives. At the same time adoption of new technologies, including 5G, IoT/IIOT, AI, autonomous vehicles and edge-computing, is defining a whole new paradigm for how, where and why data and information is consumed, distributed and stored. The steadfast demand impels an ever-increasing drive to push the performance and capabilities of new and existing technologies even further.
Page Li 1980: n 0.15–12.0 µm; 20 °C Zheng et al. 2023: n 0.22–1.7 µm; 21 °C Zheng et al. 2023: n 0.22–1.7 µm; 186 °C Zheng et al. 2023: n 0.22–1.7 µm; 368 °C Daimon and Masumura 2002: n 0.138–2.326 µm; 20 °C Daimon and Masumura 2002: n 0.138–2.326 µm; 25 °C Kaiser et al. 1964: n,k 10–80 µm Malitson 1963: n 0.23–9.7 µm; 24 °C
Ms.Cici 
8618319014500