RM2BHG7KK–Two magnolia pollen grains under the microscope, horizontal field of view is approximately 243 microns
RMD0R94R–Complete of baby socks in woman's hand.
RME7D8WW–US President Barack Obama greets the 2014 Kavli Prize laureates with representatives from the Kavli Foundation and other guests in the Oval Office of the White House July 31, 2014 in Washington, DC. The 2014 Kavli Prize laureates were selected for making fundamental contributions to the theory of cosmic inflation, to our understanding of the resolution limits of optical microscopy, and for the discovery of specialized brain networks for memory and cognition.
RFMW0JFR–Section through root of sorrel.Dicotyledonae plant
RM2JKFT5X–Actin is an essential protein in the skeleton of a cell (cytoskeleton). It forms a dense network of fine filaments in the cell. Here, the researchers used a technique called stochastic optical reconstruction microscopy (STORM) to visualize the actin network in a cell in three dimensions. Actin strands were labeled with a dye called Alexa Fluor 647-phalloidin. This image appears in a study published by Nature Methods, which reports how researchers use STORM to visualize the cytoskeleton.
RF2GK96P7–President Barack Obama greets four of the nine 2014 Kavli Prize laureates with representatives from the Kavli Foundation and other guests in the Oval Office, July 31, 2014. The 2014 Kavli Prize laureates were selected for making fundamental contributions to the theory of cosmic inflation, to our understanding of the resolution limits of optical microscopy, and for the discovery of specialized brain networks for memory and cognition. (Official White House Photo by Pete Souza) This official White House photograph is being made available only for publication by news organizations and/or for perso
RF2E9B016–Optical electron microscope. Laboratory instrument with clipping path included.
RM2HH60D5–Disk Ornament A.D. 600–1533 Manteño Huancavilca Technical note: Optical microscopy and XRF conducted in 2017. This metal disk, possibly a pectoral, belongs to the corpus of artifacts often referred to as tincullpas described by Verneau and Rivet (1912, 299–306) and Jijón y Caamaño (1920). This disk shows a mammalian face in high relief at its center and flat undecorated edges around the outside. While these faces tend to be identified as feline (see Ugalde 2009), Rodríguez (1992, 82–83) has drawn attention to certain features as indicators of a kinkajou (Potos flavus). In this case, the face i
RFT5DYGN–Laboratory Pharmacist Work at Optical Microscope
RMJ8177G–Lens of a laboratory microscope
RFKG55XY–Optical electron scanning microscope virus research concept
RF2JB3H14–Optical microscope isolated on white background with space for text
RFEWA3B0–Optical path in a simple microscope, vintage engraved illustration. Trousset encyclopedia (1886 - 1891).
RMTRDK04–diatom (Diatomeae), dioatomeen in darkfield
RMKGY4W2–Vintage Nikon compound microscope S with phase contrast condenser
RMDYP119–Optical microscope, illustration from Soviet encyclopedia, 1938
RF2D6XCR5–Trinocular optical microscope in a laboratory. Selective focus.
RM2D6XYPG–Martin-Type Drum Microscope
RMBMFCT0–A mother with two young girls explore the optical exhibition and microscopes at a museum
RM2BRW6X1–Tilia pollen grain, about 45 microns in diameter
RM2EY2XXB–President Barack Obama greets four of the nine 2014 Kavli Prize laureates with representatives from the Kavli Foundation and other guests in the Oval Office, July 31, 2014. The 2014 Kavli Prize laureates were selected for making fundamental contributions to the theory of cosmic inflation, to our understanding of the resolution limits of optical microscopy, and for the discovery of specialized brain networks for memory and cognition. (Photo by Pete Souza/White House/Sipa USA) This official White House photograph is being made available only for publication by news organizations and/or for perso
RFCR3KME–microscope in laboratory
RFMTEHG0–Philodina.Rotifera.Optic microscopy
RM2DFD20D–Prevotella bacteria
RF2HEF75T–3D Rendering Illustration of a High Resolution Digital Microscope with Screen.
RF2E9R0FD–Optical electron microscope. Laboratory instrument with clipping path included.
RM2HHCA9R–Bird Pendant 300 B.C.–A.D.700 Early Quimbaya Technical note: Optical microscopy and XRF conducted in 2017. This pendant in the shape of a bird was primarily produced through lost wax casting. Made of an alloy of gold, it depicts a stylized bird with identifying features of a head, neck, body, and tail. The lower areas of the bird, its abdomen and limbs, are not shown. Depicting the bird in this way suggests that it is 'posad[a] en agua' ('at rest in water'), as Pérez de Barradas (1966, 106) inferred for a similar avian pendant. All of the design features of this pendant were originally made in
RFT5DYGR–Chemistry Scientist Using Medical Microscope
RF2FYG5Y0–Fig. 56. How's Students Microscope From the book ' The microscope : its history, construction, and application ' by Hogg, Jabez, 1817-1899 Published in London by G. Routledge in 1869 with Illustrations by TUFFEN WEST
RFEPGKJC–Microscopy technician
RF2JB3H11–Optical microscope isolated on white background with space for text
RF2BBN9DW–Optical microscopes in the store at the exhibition
RMTR73FC–diatom (Diatomeae), fossile diatom in darkfield
RMKA1M0P–Cinchonidine microslide melt, Cinchonidine is an alkaloid found in Cinchona officinalis and Gongronema latifolium, cross polarized photomicrograph.
RFKG55XT–Optical electron scanning microscope concept art, 3D illustration
RF2DNYCY4–Closeup lens of a modern scientific microscope in the laboratory. Selective focus
RFE5WTG1–H&E stain, light microscopy, normal hair follicle
RFE5WTGB–H&E stain, light microscopy, normal skin of scalp
RMKB4288–Bright field light micrograph of a airborne pollen grain (from an unrelated plant) on an orchid petal
RMEB9TA8–Analysis of embedded samples. Optical microscopy. Characterization, test and analyze of materials and components. Technological
RMCT1559–A lab technician studies slides of blood samples
RF2E9B0NA–Optical electron microscope. Laboratory instrument with clipping path included.
RM2HH5RJ2–Bell A.D. 750–950 Greater Coclé Technical note: Optical microscopy and XRF conducted in 2017. This bell was cast by the lost wax process, and all design elements—including the four registers of diagonal lines on the outside of the resonator—were created in the wax model. The bell has a long hollow stem (1.8 cm long) (see image 2)—a feature especially distinctive of some Greater Coclé bells—that leads to the bulbous resonator. The stem was created by wrapping a long wax thread around a thin cylindrical organic element that was later removed or burned out during the casting, and the hollow reson
RFW1EF69–Laboratory Pharmacist Work at Optical Microscope
RF2FYG59E–Fig 42. Baker's No. 1 Compound, Microscope. From the book ' The microscope : its history, construction, and application ' by Hogg, Jabez, 1817-1899 Published in London by G. Routledge in 1869 with Illustrations by TUFFEN WEST
RM2J009J2–Still life. Microscopic image of chemical crystals. Sugar.
RF2GF0HP9–Black old metal optical microscope isolated on white.
RF2BBN9E0–Optical microscopes in the store at the exhibition
RMTR73FK–diatom (Diatomeae), fossile diatoms in darkfield
RMKA1M8M–Cinchonidine microslide melt, Cinchonidine is an alkaloid found in Cinchona officinalis and Gongronema latifolium, cross polarized photomicrograph.
RMRTW5B1–Single human osteosarcoma cell stained for epifluorescence
RF2CW14NC–Closeup lens of a modern scientific microscope in the laboratory. Selective focus
RFE5WTG5–H&E stain, light microscopy, osteoporosis, bone
RM2ANMX5R–Three pollen grains of chili pepper flower (Capsicum annuum) under the microscope, horizontal field of view is about 121 micron
RMEB6EY2–Analysis of embedded samples. Optical microscopy. Characterization test and analyze of materials and components. Technological
RF2J1YWCN–cat tongue cross section under the microscope showing foliate papillae, taste buds, submucosa and muscle - optical microscope x100 magnification
RFMWA5K1–Adypocites.Adipose tissue.150x
RM2DFD1YX–Prevotella bacteria
RFD2HX14–Microscopy
RF2E25BAR–Optical electron microscope. Laboratory instrument, concept of science and microscopic research.
RM2EHE9N9–President Barack Obama greets four of the nine 2014 Kavli Prize laureates with representatives from the Kavli Foundation and other guests in the Oval Office, July 31, 2014. The 2014 Kavli Prize laureates were selected for making fundamental contributions to the theory of cosmic inflation, to our understanding of the resolution limits of optical microscopy, and for the discovery of specialized brain networks for memory and cognition.
RFW1EF56–Chemistry Scientist Using Medical Microscope
RF2FYG5H0–Fig. 48. Pillischer's larger Student's Microscope From the book ' The microscope : its history, construction, and application ' by Hogg, Jabez, 1817-1899 Published in London by G. Routledge in 1869 with Illustrations by TUFFEN WEST
RM2J009HJ–Still life. Chemical. Micro crystals. Sugar.
RF2BAKE5K–Jena, Germany - January 12, 2020: Zeiss headquarters in Jena. Carl Zeiss is a german firm specialized in optical instruments, optics, and lenses
RF2BBN9E8–Optical microscopes in the store at the exhibition
RMTR73FP–wing scales in darkfield
RMKA1M5T–Cinchonidine microslide melt, Cinchonidine is an alkaloid found in Cinchona officinalis and Gongronema latifolium, cross polarized photomicrograph.
RMRTW5AJ–multiple human osteosarcoma cells stained for epifluorescence
RF2F5J3H4–Human optic nerve, light micrograph
RFE5WTG7–H&E stain, light microscopy, Paget disease of bone
RFE5WTG3–H&E stain, light microscopy, malignant melanoma of skin
RMKB4287–Bright field light micrograph of an insect wing mounted in lactophenol cotton blue, with a plant pollen grain and a fungal spore
RMEB6EKE–Analysis embedded samples Optical microscopy Characterization test and analyze materials and components Technological Services
RFBY0TJC–microscope in the laboratory
RFMW0JFX–Section through root of buttercup.Dicotyledonae plant.230x
RM2DFD1YR–Prevotella bacteria
RMWFNW4D–France, Eure, Grand Bourgtheroulde, environmental laboratory, preparation of bulk materials samples in order to position them on a transmission electron microscopy grid, observation stage under an optical microscope
RF2E31F36–Optical electron microscope. Laboratory instrument, concept of science and microscopic research.
RFKGDNK8–Close up of stereo microscope in the laboratory
RFDCXWFC–eyepiece of the optical microscope in a laboratory
RF2FYG541–Fig. 39. Ross's No. 1a Large Microscope, with Binocular arrangement and Object-glass. And Sub-stage of ditto, with new Achromatic Condenser. From the book ' The microscope : its history, construction, and application ' by Hogg, Jabez, 1817-1899 Published in London by G. Routledge in 1869 with Illustrations by TUFFEN WEST
RM2FK7N99–New York, United States. 28th Apr, 2021. View of Nanotronics high-tech manufacturing hub during mayor visit at Brooklyn Navy Yard. Nanotronics is a science technology company. Company manufacturing Positive air pressure devices, it also have products such as nSpec for optical microscopy, rapid scaning, super-resolution imaging and more. (Photo by Lev Radin/Pacific Press) Credit: Pacific Press Media Production Corp./Alamy Live News
RF2BAKEDC–Jena, Germany - January 12, 2020: Zeiss headquarters in Jena. Carl Zeiss is a german firm specialized in optical instruments, optics, and lenses
RF2BBN9EG–Optical microscopes in the store at the exhibition
RMTR73FD–wing scales in darkfield
RMKA1M36–Cinchonidine microslide melt, Cinchonidine is an alkaloid found in Cinchona officinalis and Gongronema latifolium, cross polarized photomicrograph.
RMRTW5AK–Single human osteosarcoma cell stained for epifluorescence
RF2F5J3H9–Human optic nerve, light micrograph
RFGMR8PC–microscope isolated on a white
RFEXD991–microscope and computer monitor with white screen isolated on white background
RMJYYTKJ–Pollen grains (spores) from an air sample, stained with methyl blue, inverted bright field light micrograph, size of each particle 17-22 micrometers
RMFCE4TR–NANOOPTICS GROUP Focused on near-field optics, optoelectronics, plasmonics, the development of microscopic optical equipment,
RFBY0TH3–microscope in the laboratory
RFMWA5K7–Striated muscular tissue.140x
RM2DFD22H–Pneumococcal bacteria
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