camera configuration Search Results


90
Canon inc dslr camera with an ef-s 18–55 f/3.5–5.6 iii lens configuration
Dslr Camera With An Ef S 18–55 F/3.5–5.6 Iii Lens Configuration, supplied by Canon inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/camera+configuration/pm38932632-79-30-20?v=Canon+inc
Average 90 stars, based on 1 article reviews
dslr camera with an ef-s 18–55 f/3.5–5.6 iii lens configuration - by Bioz Stars, 2026-07
90/100 stars
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90
MechDyne Corporation camera configuration
Camera Configuration, supplied by MechDyne Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/camera+configuration/ritter_kenneth_august_iii__2016__virtual_solar_energy_center_a_case_study_of_the_use_of_advanced_visualization_techniques_for-359-1-23?v=MechDyne+Corporation
Average 90 stars, based on 1 article reviews
camera configuration - by Bioz Stars, 2026-07
90/100 stars
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90
Raytrix GmbH state-of-art raytrix camera configuration
State Of Art Raytrix Camera Configuration, supplied by Raytrix GmbH, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/camera+configuration/us10491792-67-27-9?v=Raytrix+GmbH
Average 90 stars, based on 1 article reviews
state-of-art raytrix camera configuration - by Bioz Stars, 2026-07
90/100 stars
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90
MariaDB Corporation camera_configuration
Camera Configuration, supplied by MariaDB Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/camera+configuration/10__3390_slash_agriengineering3030033-516-110-1?v=MariaDB+Corporation
Average 90 stars, based on 1 article reviews
camera_configuration - by Bioz Stars, 2026-07
90/100 stars
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90
CONOSTAN libs instrument configured with a compact czerny-turner spectrometer and iccd camera
Libs Instrument Configured With A Compact Czerny Turner Spectrometer And Iccd Camera, supplied by CONOSTAN, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/camera+configuration/us11768157-692-30-11?v=CONOSTAN
Average 90 stars, based on 1 article reviews
libs instrument configured with a compact czerny-turner spectrometer and iccd camera - by Bioz Stars, 2026-07
90/100 stars
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90
EyeTracking Inc camera configuration 300
Camera Configuration 300, supplied by EyeTracking Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/camera+configuration/us09642523-116-4-4?v=EyeTracking+Inc
Average 90 stars, based on 1 article reviews
camera configuration 300 - by Bioz Stars, 2026-07
90/100 stars
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90
Hamamatsu base configuration hamamatsu fusion bt scmos camera
A) Single-mode illumination path(s) (blue): The single-mode laser(s) are spatially filtered, expanded and homogenized. The resulting flat-top intensity profile is further expanded by exchangeable telescopes to control the size of the illumination field. Setting the angle for TIRF/HILO illumination is accomplished by positioning of a motorized mirror. The laser power is monitored in real time by measuring the <1% transmission of the laser lines at the illumination dichroic mirror. Emission path (green): A primary image is produced by a tube lens, restricted in spatial extent by a slit and relayed in a 4f <t>configuration</t> via a spectrally discriminative image splitter to form two secondary images on an <t>sCMOS</t> camera. A variable astigmatic lens (cylindrical lens pair) can be removed/inserted for 2D/3D imaging, while a Bertrand lens allows viewing of the objective back focal plane. Focus lock path (red): The focus lock laser is separated from emitted fluorescence by the emission dichroic mirror, focused to the objective back focal plane and launched obliquely to return under the TIRF condition allowing axial drift of the coverslip relative to the objective lens to be measured via a quadrant photodiode and corrected via the control loop of the piezo flexure stage mounting the objective. B) For clarity the multi-mode laser illumination path (orange) has been shown separately but all modules are co-compatible. A magnified image of the tip of a square core multimode fiber (coupled to a multi-mode laser engine) is produced and re-imaged onto the sample via a tube lens in a retrofocus arrangement and the objective lens. The multi-mode laser is coupled into the microscope by translation of the motorized mirror (HILO/TIRF) fully out of the beam path
Base Configuration Hamamatsu Fusion Bt Scmos Camera, supplied by Hamamatsu, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/camera+configuration/bio_rxiv__2023__10__23__563122-2548-8-10?v=Hamamatsu
Average 90 stars, based on 1 article reviews
base configuration hamamatsu fusion bt scmos camera - by Bioz Stars, 2026-07
90/100 stars
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90
FLIR Systems airborne camera configuration
A) Single-mode illumination path(s) (blue): The single-mode laser(s) are spatially filtered, expanded and homogenized. The resulting flat-top intensity profile is further expanded by exchangeable telescopes to control the size of the illumination field. Setting the angle for TIRF/HILO illumination is accomplished by positioning of a motorized mirror. The laser power is monitored in real time by measuring the <1% transmission of the laser lines at the illumination dichroic mirror. Emission path (green): A primary image is produced by a tube lens, restricted in spatial extent by a slit and relayed in a 4f <t>configuration</t> via a spectrally discriminative image splitter to form two secondary images on an <t>sCMOS</t> camera. A variable astigmatic lens (cylindrical lens pair) can be removed/inserted for 2D/3D imaging, while a Bertrand lens allows viewing of the objective back focal plane. Focus lock path (red): The focus lock laser is separated from emitted fluorescence by the emission dichroic mirror, focused to the objective back focal plane and launched obliquely to return under the TIRF condition allowing axial drift of the coverslip relative to the objective lens to be measured via a quadrant photodiode and corrected via the control loop of the piezo flexure stage mounting the objective. B) For clarity the multi-mode laser illumination path (orange) has been shown separately but all modules are co-compatible. A magnified image of the tip of a square core multimode fiber (coupled to a multi-mode laser engine) is produced and re-imaged onto the sample via a tube lens in a retrofocus arrangement and the objective lens. The multi-mode laser is coupled into the microscope by translation of the motorized mirror (HILO/TIRF) fully out of the beam path
Airborne Camera Configuration, supplied by FLIR Systems, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/camera+configuration/us07090178-10-7-12?v=FLIR+Systems
Average 90 stars, based on 1 article reviews
airborne camera configuration - by Bioz Stars, 2026-07
90/100 stars
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90
FluxData Inc pre-configured 5 or 7 channel red green blue (rgb) color model camera
A) Single-mode illumination path(s) (blue): The single-mode laser(s) are spatially filtered, expanded and homogenized. The resulting flat-top intensity profile is further expanded by exchangeable telescopes to control the size of the illumination field. Setting the angle for TIRF/HILO illumination is accomplished by positioning of a motorized mirror. The laser power is monitored in real time by measuring the <1% transmission of the laser lines at the illumination dichroic mirror. Emission path (green): A primary image is produced by a tube lens, restricted in spatial extent by a slit and relayed in a 4f <t>configuration</t> via a spectrally discriminative image splitter to form two secondary images on an <t>sCMOS</t> camera. A variable astigmatic lens (cylindrical lens pair) can be removed/inserted for 2D/3D imaging, while a Bertrand lens allows viewing of the objective back focal plane. Focus lock path (red): The focus lock laser is separated from emitted fluorescence by the emission dichroic mirror, focused to the objective back focal plane and launched obliquely to return under the TIRF condition allowing axial drift of the coverslip relative to the objective lens to be measured via a quadrant photodiode and corrected via the control loop of the piezo flexure stage mounting the objective. B) For clarity the multi-mode laser illumination path (orange) has been shown separately but all modules are co-compatible. A magnified image of the tip of a square core multimode fiber (coupled to a multi-mode laser engine) is produced and re-imaged onto the sample via a tube lens in a retrofocus arrangement and the objective lens. The multi-mode laser is coupled into the microscope by translation of the motorized mirror (HILO/TIRF) fully out of the beam path
Pre Configured 5 Or 7 Channel Red Green Blue (Rgb) Color Model Camera, supplied by FluxData Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/camera+configuration/us09507980-108-10-4?v=FluxData+Inc
Average 90 stars, based on 1 article reviews
pre-configured 5 or 7 channel red green blue (rgb) color model camera - by Bioz Stars, 2026-07
90/100 stars
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90
Prosilica Inc 1.3 megapixel cameras configured as a stereo pair
A) Single-mode illumination path(s) (blue): The single-mode laser(s) are spatially filtered, expanded and homogenized. The resulting flat-top intensity profile is further expanded by exchangeable telescopes to control the size of the illumination field. Setting the angle for TIRF/HILO illumination is accomplished by positioning of a motorized mirror. The laser power is monitored in real time by measuring the <1% transmission of the laser lines at the illumination dichroic mirror. Emission path (green): A primary image is produced by a tube lens, restricted in spatial extent by a slit and relayed in a 4f <t>configuration</t> via a spectrally discriminative image splitter to form two secondary images on an <t>sCMOS</t> camera. A variable astigmatic lens (cylindrical lens pair) can be removed/inserted for 2D/3D imaging, while a Bertrand lens allows viewing of the objective back focal plane. Focus lock path (red): The focus lock laser is separated from emitted fluorescence by the emission dichroic mirror, focused to the objective back focal plane and launched obliquely to return under the TIRF condition allowing axial drift of the coverslip relative to the objective lens to be measured via a quadrant photodiode and corrected via the control loop of the piezo flexure stage mounting the objective. B) For clarity the multi-mode laser illumination path (orange) has been shown separately but all modules are co-compatible. A magnified image of the tip of a square core multimode fiber (coupled to a multi-mode laser engine) is produced and re-imaged onto the sample via a tube lens in a retrofocus arrangement and the objective lens. The multi-mode laser is coupled into the microscope by translation of the motorized mirror (HILO/TIRF) fully out of the beam path
1.3 Megapixel Cameras Configured As A Stereo Pair, supplied by Prosilica Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/camera+configuration/10__1016_slash_j__csr__2012__12__010-95-8-7?v=Prosilica+Inc
Average 90 stars, based on 1 article reviews
1.3 megapixel cameras configured as a stereo pair - by Bioz Stars, 2026-07
90/100 stars
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90
ADAC Laboratories dual detector rotating gamma camera with 90 degree configuration adac
A) Single-mode illumination path(s) (blue): The single-mode laser(s) are spatially filtered, expanded and homogenized. The resulting flat-top intensity profile is further expanded by exchangeable telescopes to control the size of the illumination field. Setting the angle for TIRF/HILO illumination is accomplished by positioning of a motorized mirror. The laser power is monitored in real time by measuring the <1% transmission of the laser lines at the illumination dichroic mirror. Emission path (green): A primary image is produced by a tube lens, restricted in spatial extent by a slit and relayed in a 4f <t>configuration</t> via a spectrally discriminative image splitter to form two secondary images on an <t>sCMOS</t> camera. A variable astigmatic lens (cylindrical lens pair) can be removed/inserted for 2D/3D imaging, while a Bertrand lens allows viewing of the objective back focal plane. Focus lock path (red): The focus lock laser is separated from emitted fluorescence by the emission dichroic mirror, focused to the objective back focal plane and launched obliquely to return under the TIRF condition allowing axial drift of the coverslip relative to the objective lens to be measured via a quadrant photodiode and corrected via the control loop of the piezo flexure stage mounting the objective. B) For clarity the multi-mode laser illumination path (orange) has been shown separately but all modules are co-compatible. A magnified image of the tip of a square core multimode fiber (coupled to a multi-mode laser engine) is produced and re-imaged onto the sample via a tube lens in a retrofocus arrangement and the objective lens. The multi-mode laser is coupled into the microscope by translation of the motorized mirror (HILO/TIRF) fully out of the beam path
Dual Detector Rotating Gamma Camera With 90 Degree Configuration Adac, supplied by ADAC Laboratories, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/camera+configuration/pm12236025-51-17-23?v=ADAC+Laboratories
Average 90 stars, based on 1 article reviews
dual detector rotating gamma camera with 90 degree configuration adac - by Bioz Stars, 2026-07
90/100 stars
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90
Simi Reality Motion Systems video, two-camera configuration of the simi motion system
A) Single-mode illumination path(s) (blue): The single-mode laser(s) are spatially filtered, expanded and homogenized. The resulting flat-top intensity profile is further expanded by exchangeable telescopes to control the size of the illumination field. Setting the angle for TIRF/HILO illumination is accomplished by positioning of a motorized mirror. The laser power is monitored in real time by measuring the <1% transmission of the laser lines at the illumination dichroic mirror. Emission path (green): A primary image is produced by a tube lens, restricted in spatial extent by a slit and relayed in a 4f <t>configuration</t> via a spectrally discriminative image splitter to form two secondary images on an <t>sCMOS</t> camera. A variable astigmatic lens (cylindrical lens pair) can be removed/inserted for 2D/3D imaging, while a Bertrand lens allows viewing of the objective back focal plane. Focus lock path (red): The focus lock laser is separated from emitted fluorescence by the emission dichroic mirror, focused to the objective back focal plane and launched obliquely to return under the TIRF condition allowing axial drift of the coverslip relative to the objective lens to be measured via a quadrant photodiode and corrected via the control loop of the piezo flexure stage mounting the objective. B) For clarity the multi-mode laser illumination path (orange) has been shown separately but all modules are co-compatible. A magnified image of the tip of a square core multimode fiber (coupled to a multi-mode laser engine) is produced and re-imaged onto the sample via a tube lens in a retrofocus arrangement and the objective lens. The multi-mode laser is coupled into the microscope by translation of the motorized mirror (HILO/TIRF) fully out of the beam path
Video, Two Camera Configuration Of The Simi Motion System, supplied by Simi Reality Motion Systems, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/camera+configuration/pm28987971-122-16-23?v=Simi+Reality+Motion+Systems
Average 90 stars, based on 1 article reviews
video, two-camera configuration of the simi motion system - by Bioz Stars, 2026-07
90/100 stars
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Image Search Results


A) Single-mode illumination path(s) (blue): The single-mode laser(s) are spatially filtered, expanded and homogenized. The resulting flat-top intensity profile is further expanded by exchangeable telescopes to control the size of the illumination field. Setting the angle for TIRF/HILO illumination is accomplished by positioning of a motorized mirror. The laser power is monitored in real time by measuring the <1% transmission of the laser lines at the illumination dichroic mirror. Emission path (green): A primary image is produced by a tube lens, restricted in spatial extent by a slit and relayed in a 4f configuration via a spectrally discriminative image splitter to form two secondary images on an sCMOS camera. A variable astigmatic lens (cylindrical lens pair) can be removed/inserted for 2D/3D imaging, while a Bertrand lens allows viewing of the objective back focal plane. Focus lock path (red): The focus lock laser is separated from emitted fluorescence by the emission dichroic mirror, focused to the objective back focal plane and launched obliquely to return under the TIRF condition allowing axial drift of the coverslip relative to the objective lens to be measured via a quadrant photodiode and corrected via the control loop of the piezo flexure stage mounting the objective. B) For clarity the multi-mode laser illumination path (orange) has been shown separately but all modules are co-compatible. A magnified image of the tip of a square core multimode fiber (coupled to a multi-mode laser engine) is produced and re-imaged onto the sample via a tube lens in a retrofocus arrangement and the objective lens. The multi-mode laser is coupled into the microscope by translation of the motorized mirror (HILO/TIRF) fully out of the beam path

Journal: bioRxiv

Article Title: Automated 3D multi-color single-molecule localization microscopy

doi: 10.1101/2023.10.23.563122

Figure Lengend Snippet: A) Single-mode illumination path(s) (blue): The single-mode laser(s) are spatially filtered, expanded and homogenized. The resulting flat-top intensity profile is further expanded by exchangeable telescopes to control the size of the illumination field. Setting the angle for TIRF/HILO illumination is accomplished by positioning of a motorized mirror. The laser power is monitored in real time by measuring the <1% transmission of the laser lines at the illumination dichroic mirror. Emission path (green): A primary image is produced by a tube lens, restricted in spatial extent by a slit and relayed in a 4f configuration via a spectrally discriminative image splitter to form two secondary images on an sCMOS camera. A variable astigmatic lens (cylindrical lens pair) can be removed/inserted for 2D/3D imaging, while a Bertrand lens allows viewing of the objective back focal plane. Focus lock path (red): The focus lock laser is separated from emitted fluorescence by the emission dichroic mirror, focused to the objective back focal plane and launched obliquely to return under the TIRF condition allowing axial drift of the coverslip relative to the objective lens to be measured via a quadrant photodiode and corrected via the control loop of the piezo flexure stage mounting the objective. B) For clarity the multi-mode laser illumination path (orange) has been shown separately but all modules are co-compatible. A magnified image of the tip of a square core multimode fiber (coupled to a multi-mode laser engine) is produced and re-imaged onto the sample via a tube lens in a retrofocus arrangement and the objective lens. The multi-mode laser is coupled into the microscope by translation of the motorized mirror (HILO/TIRF) fully out of the beam path

Article Snippet: The instructions provided assume the use of the base configuration Hamamatsu Fusion BT sCMOS camera.

Techniques: Control, Transmission Assay, Produced, Imaging, Fluorescence, Microscopy

Top: as viewed from the front/right of the microscope. From left-right: the tube lens, field aperture, first steering mirror, first relay lens, laser blocking filters, astigmatic lens and filter wheels either side of the image splitter dichroic mirror. Bottom: as viewed from the back/left of the microscope highlighting the image splitter platform. Following the filter wheel, the transmitted and reflected paths each comprise a second relay lens and steering mirror before the images are recombined by a knife-edge mirror (occluded in figure) and imaged onto an sCMOS camera.

Journal: bioRxiv

Article Title: Automated 3D multi-color single-molecule localization microscopy

doi: 10.1101/2023.10.23.563122

Figure Lengend Snippet: Top: as viewed from the front/right of the microscope. From left-right: the tube lens, field aperture, first steering mirror, first relay lens, laser blocking filters, astigmatic lens and filter wheels either side of the image splitter dichroic mirror. Bottom: as viewed from the back/left of the microscope highlighting the image splitter platform. Following the filter wheel, the transmitted and reflected paths each comprise a second relay lens and steering mirror before the images are recombined by a knife-edge mirror (occluded in figure) and imaged onto an sCMOS camera.

Article Snippet: The instructions provided assume the use of the base configuration Hamamatsu Fusion BT sCMOS camera.

Techniques: Microscopy, Blocking Assay