Dark field microscopy hi-res stock photography and images

common water flea (Daphnia pulex), dark-field microscopy with polarisation, Germany Stock Photo

RMTR7345–common water flea (Daphnia pulex), dark-field microscopy with polarisation, Germany

Dark field light micrograph of Lactarius rubrilacteus (bleeding milkcap) mushroom spores, pictured area is about 120 microns wide Stock Photo

RMMBNRWK–Dark field light micrograph of Lactarius rubrilacteus (bleeding milkcap) mushroom spores, pictured area is about 120 microns wide

Radiolarian shells under the microscope 100x Stock Photo

RMWXAXBE–Radiolarian shells under the microscope 100x

Cucurbita Stem Magnification Dark Field Stock Photo

RFEG3M8F–Cucurbita Stem Magnification Dark Field

Still life. Microscopic image of chemical crystals. Sugar. Stock Photo

RM2J009J2–Still life. Microscopic image of chemical crystals. Sugar.

Photomicrograph of a Treponema pallidum bacterium using dark field microscopy technique. Mag 400x, Dark field microscopy involves the application of light rays in an oblique manner to microscopic specimens in order to illuminate these organisms, which are normally difficult to see using normal lighting techniques. Image courtesy CDC/Schwartz, 1961. Stock Photo

RMKW111K–Photomicrograph of a Treponema pallidum bacterium using dark field microscopy technique. Mag 400x, Dark field microscopy involves the application of light rays in an oblique manner to microscopic specimens in order to illuminate these organisms, which are normally difficult to see using normal lighting techniques. Image courtesy CDC/Schwartz, 1961.

Dark field light micrograph of yellow pond lily (Nuphar polysepala) pollen grains, pictured area is about 160 micrometers wide Stock Photo

RM2BTXTN3–Dark field light micrograph of yellow pond lily (Nuphar polysepala) pollen grains, pictured area is about 160 micrometers wide

black, gold, white, dark field microscopy inspired , Abstract biomorphic watercolour and ink specimens with a cellular bubble like structure Stock Photo

RF2JRM7BX–black, gold, white, dark field microscopy inspired , Abstract biomorphic watercolour and ink specimens with a cellular bubble like structure

Microscopic free-living nematode worm from garden soil, possibly Panagrellus sp., dark field micrograph, horizontal field of view is about 1.1mm Stock Photo

RM2HHC3MT–Microscopic free-living nematode worm from garden soil, possibly Panagrellus sp., dark field micrograph, horizontal field of view is about 1.1mm

Microscopic image of mosquito, dark field technique, extreme close-up Stock Photo

RFPFTG65–Microscopic image of mosquito, dark field technique, extreme close-up

micrography showing lots of various translucent freshwater microorganisms in dark back Stock Photo

RFHH10H6–micrography showing lots of various translucent freshwater microorganisms in dark back

Common Pheasant Phasianus colchicus, mircoscopy is used to image feather barbules using dark field illumination, Nottingham. Stock Photo

RME68D8E–Common Pheasant Phasianus colchicus, mircoscopy is used to image feather barbules using dark field illumination, Nottingham.

Dark field micrograph of a mosquito wing, horizontal field of view is approximately 0.61 mm Stock Photo

RM2J22REN–Dark field micrograph of a mosquito wing, horizontal field of view is approximately 0.61 mm

Treponema pallidum shown under dark field light microscopy. Stock Photo

RMECY9D6–Treponema pallidum shown under dark field light microscopy.

Dark field micrograph of yeast on top of fermented food Stock Photo

RM2BHG7M0–Dark field micrograph of yeast on top of fermented food

Diatom biodiversity, dark field micrograph Stock Photo

RM2GGR739–Diatom biodiversity, dark field micrograph

Gastrotrich (about 0.16mm in length) from a freshwater sample under the microscope Stock Photo

RM2J05K6G–Gastrotrich (about 0.16mm in length) from a freshwater sample under the microscope

RMHRF7AN–Human sperm in uterus

Dark field light micrograph of an aphid leg, pictured area is about 243 microns wide Stock Photo

RMT19A6W–Dark field light micrograph of an aphid leg, pictured area is about 243 microns wide

RMTR7341–common water flea (Daphnia pulex), dark-field microscopy with polarisation, Germany

Mosquito mouth parts under the microscope, dark field micrograph Stock Photo

RM2J22RF6–Mosquito mouth parts under the microscope, dark field micrograph

copepods (Copepoda), copepod, lateral part, dark field microscopy Stock Photo

RM2EDPCG7–copepods (Copepoda), copepod, lateral part, dark field microscopy

Fruit stalk Pedunculate oak Cross section under the microscope 100x Stock Photo

RMWXAW8G–Fruit stalk Pedunculate oak Cross section under the microscope 100x

diatom (Diatomeae), Diatoms from Emeralda, light microscopy, dark-field microscopy, magnification x 140 related to a print of 35 mm width, USA, Stock Photo

RM2GK94FE–diatom (Diatomeae), Diatoms from Emeralda, light microscopy, dark-field microscopy, magnification x 140 related to a print of 35 mm width, USA,

Still life. Chemical. Micro crystals. Sugar. Stock Photo

RM2J009HJ–Still life. Chemical. Micro crystals. Sugar.

common water flea (Daphnia pulex), antennae, darkfield microscopy, Germany Stock Photo

RMTR7340–common water flea (Daphnia pulex), antennae, darkfield microscopy, Germany

Microscopy. Sugar crystals photographed in polarized light. Stock Photo

RM2J45MMX–Microscopy. Sugar crystals photographed in polarized light.

water flea (Ceriodaphnia spec.), in dark field microscopy Stock Photo

RMAXYYME–water flea (Ceriodaphnia spec.), in dark field microscopy

Microscopic image of daphnia, dark field technique Stock Photo

RFKCKEH4–Microscopic image of daphnia, dark field technique

House fly (Musca domestica), mouthparts of a house fly (dark field, and DIC microscopy, UV light) Stock Photo

RM2G9YYCT–House fly (Musca domestica), mouthparts of a house fly (dark field, and DIC microscopy, UV light)

Dark field photomicrograph of fresh-water algae, horizontal field of view is about 121 micrometers Stock Photo

RM2FX7AAE–Dark field photomicrograph of fresh-water algae, horizontal field of view is about 121 micrometers

Photomicrograph of leptospiral microscopic agglutination test with live antigen using dark field microscopy technique, 1961. Leptospirosis is a common global zoonotic disease of man and several warm-blooded animals especially in sub-tropical regions of the world, caused by the spirochete bacteria Leptospira . Image courtesy CDC/Mrs. M Gatton. Stock Photo

RMKR14CT–Photomicrograph of leptospiral microscopic agglutination test with live antigen using dark field microscopy technique, 1961. Leptospirosis is a common global zoonotic disease of man and several warm-blooded animals especially in sub-tropical regions of the world, caused by the spirochete bacteria Leptospira . Image courtesy CDC/Mrs. M Gatton.

Dark field light micrograph of Verpa bohemica mushroom spores, pictured area is about 0.65mm wide Stock Photo

RMMM85PT–Dark field light micrograph of Verpa bohemica mushroom spores, pictured area is about 0.65mm wide

RMECY9D9–Treponema pallidum shown under dark field light microscopy.

Thrips (probably Thripidae), dark field micrograph, field of view is approximately 0.61mm high (on-sensor magnification 28x) Stock Photo

RMT9XY9A–Thrips (probably Thripidae), dark field micrograph, field of view is approximately 0.61mm high (on-sensor magnification 28x)

Erika leaf cross-section in the dark field 100x Stock Photo

RF2B6MHFM–Erika leaf cross-section in the dark field 100x

Broken diatom frustule from a fresh water sample (about 120 microns in length), dark field micrograph Stock Photo

RMK0C5X0–Broken diatom frustule from a fresh water sample (about 120 microns in length), dark field micrograph

RMHRJ3XD–Human sperm in uterus

Wasp antenna surface under the microscope, pictured area is approximately 0.24mm wide Stock Photo

RMRKBGB3–Wasp antenna surface under the microscope, pictured area is approximately 0.24mm wide

Colourful microscopic images of a British Bee Stock Photo

RMPGRB6X–Colourful microscopic images of a British Bee

Thrips (probably Thripidae), found on carrot foliage, about 1mm in length Stock Photo

RMT9XY9E–Thrips (probably Thripidae), found on carrot foliage, about 1mm in length

Pedunculate oak fruit stalk cross section under the microscope 100x Stock Photo

RMWXAW8D–Pedunculate oak fruit stalk cross section under the microscope 100x

Dark field micrograph of a tiny Aeolosoma worm, about 1mm length Stock Photo

RMKPP96R–Dark field micrograph of a tiny Aeolosoma worm, about 1mm length

Leaf cross-section under the microscope in the dark field 100x Stock Photo

RMWXAPDJ–Leaf cross-section under the microscope in the dark field 100x

Penicillium mold under the microscope, dark field, 100x oil objective Stock Photo

RM2BTXTN9–Penicillium mold under the microscope, dark field, 100x oil objective

Pipe bush Stem in the dark field 100x Stock Photo

RMWXAT6K–Pipe bush Stem in the dark field 100x

Human cheek epithelial cells under the microscope, horizontal field of view is about 125 micrometers Stock Photo

RM2HR274K–Human cheek epithelial cells under the microscope, horizontal field of view is about 125 micrometers

RFKCKEHT–Microscopic image of daphnia, dark field technique

RM2G9YY70–House fly (Musca domestica), mouthparts of a house fly (dark field, and DIC microscopy, UV light)

The image presents Utricularia trap, a kind of carnivorous plant, photographed through the microscope in polarized light and dark field, at a magnifi Stock Photo

RM2RPEHDF–The image presents Utricularia trap, a kind of carnivorous plant, photographed through the microscope in polarized light and dark field, at a magnifi

Photomicrographs of the drug AZT were taken at 30x and 50x magnifications. To illuminate the crystals, polarized and dark field illumination techniques were used. AZT is thought to help prevent the replication of HIV, the AIDS virus, also known as HTLV-III. Stock Photo

RM2JKFT66–Photomicrographs of the drug AZT were taken at 30x and 50x magnifications. To illuminate the crystals, polarized and dark field illumination techniques were used. AZT is thought to help prevent the replication of HIV, the AIDS virus, also known as HTLV-III.

The image presents Ophrydium sp. ( a kind of colonial ciliates), photographed through the microscope in polarized light and dark field at a magnificat Stock Photo

RM2RTNC23–The image presents Ophrydium sp. ( a kind of colonial ciliates), photographed through the microscope in polarized light and dark field at a magnificat

RMECY9DB–Treponema pallidum shown under dark field light microscopy.

The image presents reed stalk in the transversal cross-section, photographed through the microscope in polarized light and dark field, at a magnificat Stock Photo

RM2RPEHKD–The image presents reed stalk in the transversal cross-section, photographed through the microscope in polarized light and dark field, at a magnificat

Hop branch across the dark field 100x Stock Photo

RF2B6MHAP–Hop branch across the dark field 100x

The image presents nettle tissues in the stalk in transversall cross-section, photographed through the microscope in polarized light and dark field at Stock Photo

RM2RPEHC2–The image presents nettle tissues in the stalk in transversall cross-section, photographed through the microscope in polarized light and dark field at

RMHRJ3XC–Human sperm in uterus

The image presents cladoceran in rare frontal view above filamntous algae photographed through the microscope in polarized light and dark field at a Stock Photo

RM2RPEHX3–The image presents cladoceran in rare frontal view above filamntous algae photographed through the microscope in polarized light and dark field at a

RMPGRB6W–Colourful microscopic images of a British Bee

The image presents a single vascular bundle in Carex sp. stalk, photographed through the microscope in polarized light and dark field at a magnificati Stock Photo

RM2RPEHC0–The image presents a single vascular bundle in Carex sp. stalk, photographed through the microscope in polarized light and dark field at a magnificati

RFHH10GY–micrography showing lots of various translucent freshwater microorganisms in dark back

black and white, dark field microscopy inspired , abstract biomorphic watercolour and ink art specimens with a cellular bubble like structure Stock Photo

RF2JRM7BH–black and white, dark field microscopy inspired , abstract biomorphic watercolour and ink art specimens with a cellular bubble like structure

A drifting radiolarian colony photographed at night on a blackwater dive in the open Pacific Ocean six miles off the island of Yap, in the Federated S Stock Photo

RM2TA8TD9–A drifting radiolarian colony photographed at night on a blackwater dive in the open Pacific Ocean six miles off the island of Yap, in the Federated S

Dark field micrograph of a stain edge on a prepared microscope slide, pictured area is about 0.8mm wide Stock Photo

RMKR0171–Dark field micrograph of a stain edge on a prepared microscope slide, pictured area is about 0.8mm wide

Pipe bush stems across in the dark field 100x Stock Photo

RMWXAT6F–Pipe bush stems across in the dark field 100x

Microscopic view of a Horsetail (Equisetum arvense) spores with elaters. Polarized light with crossed polarizers. Stock Photo

RF2CAGMH5–Microscopic view of a Horsetail (Equisetum arvense) spores with elaters. Polarized light with crossed polarizers.

RMWXAPC0–Leaf cross-section under the microscope in the dark field 100x

RM2G9YYCY–House fly (Musca domestica), mouthparts of a house fly (dark field, and DIC microscopy, UV light)

a biologist looks into a specimen using a light microscope Stock Vector

RFP9YRB6–a biologist looks into a specimen using a light microscope

Glockentier, Glockentierchen (Vorticella spec.), im Dunkelfeld | Vorticella (Vorticella spec.), with dark field microscopy | BLW Stock Photo

RMGYKD93–Glockentier, Glockentierchen (Vorticella spec.), im Dunkelfeld | Vorticella (Vorticella spec.), with dark field microscopy | BLW

. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. SPENCER. 1 ASSURES MAXIMUM OPTICAL PERFORMANCE OF YOUR MICROSCOPE — Koehler type illumination— ideal for bright field . .. phase . . interference ... polar- izing ... and dark field microscopy and photomicro- graphy. Numerical aperture . . and field diaphragm settings regulated accurately and effectively — permit full resolving power of your microscope. 2 OFFERS WIDE SELECTION OF FILTERS — Eight levels of intensity . . plus daylight, green and red filters . . quickly selectable by simple finger-tip rotation of tur- ret mount Stock Photo

RMRHKYEN–. The Biological bulletin. Biology; Zoology; Biology; Marine Biology. SPENCER. 1 ASSURES MAXIMUM OPTICAL PERFORMANCE OF YOUR MICROSCOPE — Koehler type illumination— ideal for bright field . .. phase . . interference ... polar- izing ... and dark field microscopy and photomicro- graphy. Numerical aperture . . and field diaphragm settings regulated accurately and effectively — permit full resolving power of your microscope. 2 OFFERS WIDE SELECTION OF FILTERS — Eight levels of intensity . . plus daylight, green and red filters . . quickly selectable by simple finger-tip rotation of tur- ret mount

House fly (Musca domestica), head and mouthparts of a house fly (dark field, and DIC microscopy, UV light) Stock Photo

RM2G9YYKE–House fly (Musca domestica), head and mouthparts of a house fly (dark field, and DIC microscopy, UV light)

RMECY92B–Treponema pallidum shown under dark field light microscopy.

rotifers (Rotatoria), dark field microscopic image, magnification x100 related to 35 mm Stock Photo

RM2EM3M7G–rotifers (Rotatoria), dark field microscopic image, magnification x100 related to 35 mm

RF2B6MHBE–Hop branch across the dark field 100x

green trumpet animalcule (Stentor polymorphus), with dark-field microscope, Germany Stock Photo

RMTR7342–green trumpet animalcule (Stentor polymorphus), with dark-field microscope, Germany

RMHRJ3XF–Human sperm in uterus

Branchellion, a leech parasitic on the skin of elasmobranchs (sharks and rays) Stock Photo

RFA4GRKB–Branchellion, a leech parasitic on the skin of elasmobranchs (sharks and rays)

. Elementary chemical microscopy . Fig. 20. Paraboloid Dark-field Illuminator. Stock Photo

RMMA7FYD–. Elementary chemical microscopy . Fig. 20. Paraboloid Dark-field Illuminator.

RFHH10GG–micrography showing lots of various translucent freshwater microorganisms in dark back

RF2JRM7BN–black, gold, white, dark field microscopy inspired , Abstract biomorphic watercolour and ink specimens with a cellular bubble like structure

RM2TBAAY2–A drifting radiolarian colony photographed at night on a blackwater dive in the open Pacific Ocean six miles off the island of Yap, in the Federated S

Flammulina velutipes (velvet foot mushroom) growing on a log, with dark field light micrograph of its spores Stock Photo

RMKPP96P–Flammulina velutipes (velvet foot mushroom) growing on a log, with dark field light micrograph of its spores

This larval shrimp is hitching a ride on a radiolarian colony and was photographed during a blackwater drift dive, in open ocean at 50 feet with botto Stock Photo

RM2YPKWA4–This larval shrimp is hitching a ride on a radiolarian colony and was photographed during a blackwater drift dive, in open ocean at 50 feet with botto

RF2CAGMH7–Microscopic view of a Horsetail (Equisetum arvense) spores with elaters. Polarized light with crossed polarizers.

RMWXAPE8–Leaf cross-section under the microscope in the dark field 100x

Elementary chemical microscopy elementarychemi00cham Year: 1921 ILLUMINATION OF OBJECTS; DARK FIELD 39 illuminator in which, Fig. 15, a lens is combined with a parabo- loid to bring the rays to a proper focus. t ^v& Stock Photo

RMRYFAFC–Elementary chemical microscopy elementarychemi00cham Year: 1921 ILLUMINATION OF OBJECTS; DARK FIELD 39 illuminator in which, Fig. 15, a lens is combined with a parabo- loid to bring the rays to a proper focus. t ^v&

Linden wood cross section in the dark field under the microscope 100x Stock Photo

RM2AD8J6F–Linden wood cross section in the dark field under the microscope 100x

RMWXAPCD–Leaf cross-section under the microscope in the dark field 100x

The microscope; an introduction to microscopic methods and to histology . Tzer. Cross theNicols. In the dark field will be seen multitudes of shining crystals,and if the preparation is a fresh one in water, part of the smallercrystals will alternately flash and disappear. By observing carefully,some of the larger crystals will be found to remain dark with crossedNicols, others will shine continuously. If the crystals are in such aposition that the light passes through them parallel with the optic Fig. 126. ChamoVs Microscopefor Micro-Chemical Analysis {Jour-nal of Applied Microscopy 1899, p. Stock Photo

RM2AWNXM8–The microscope; an introduction to microscopic methods and to histology . Tzer. Cross theNicols. In the dark field will be seen multitudes of shining crystals,and if the preparation is a fresh one in water, part of the smallercrystals will alternately flash and disappear. By observing carefully,some of the larger crystals will be found to remain dark with crossedNicols, others will shine continuously. If the crystals are in such aposition that the light passes through them parallel with the optic Fig. 126. ChamoVs Microscopefor Micro-Chemical Analysis {Jour-nal of Applied Microscopy 1899, p.

RMECY9D8–Treponema pallidum shown under dark field light microscopy.

RF2B6MHB3–Hop branch across the dark field 100x

RMTR7348–green trumpet animalcule (Stentor polymorphus), with dark-field microscope, Germany

RMHRF73Y–Rotifer Philodina

sun animalcules, heliozoans (Actinosphaerium), dark field microscope image, magnification: x120 related to 35mm Stock Photo

RM2EM3KHW–sun animalcules, heliozoans (Actinosphaerium), dark field microscope image, magnification: x120 related to 35mm

RFA4GRM3–Branchellion, a leech parasitic on the skin of elasmobranchs (sharks and rays)

diatom (Melosira moniliformis ), dark field microscope image, magnification: x100 related to 36mm, Germany Stock Photo

RM2EM3MT5–diatom (Melosira moniliformis ), dark field microscope image, magnification: x100 related to 36mm, Germany

RFHH10GW–micrography showing lots of various translucent freshwater microorganisms in dark back

brine shrimp (Artemia salina), dark field microscopic image, magnification x20 related to 35 mm Stock Photo

RM2F5D6MA–brine shrimp (Artemia salina), dark field microscopic image, magnification x20 related to 35 mm

fine art black, gold, white, copper, dark field microscopy inspired , Abstract biomorphic watercolour and ink specimens with a cellular like structure Stock Photo

RF2JRM7BP–fine art black, gold, white, copper, dark field microscopy inspired , Abstract biomorphic watercolour and ink specimens with a cellular like structure

Dark field microscopy Stock Photos and Images

Dark field microscopy Stock Photos and Images

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