microtime 200 sted microscope Search Results


3view microtome control software digital micrograph  (Gatan Inc)
97
Gatan Inc 3view microtome control software digital micrograph
( A ) Schematic of the interior of the <t>3View</t> SBF SEM chamber showing relative positions of major components and the location of the 3 mm gap between the top of the sample and the bottom of the BSE detector. ( B ) Schematic of the optical arrangement of the miniLM. ( C ) Schematic of the custom lens in the miniLM alongside a photograph showing the physical dimensions. The miniature microscope objective is attached to the end of a coherent fibre bundle, which serves to feed the image out of the vacuum chamber. ( D ) Schematic of the coherent fibre bundle. An image presented to the proximal end of the fibre is relayed in a spatially coherent manner to the distal end. Note the resultant pixellation of the image due to the finite number of fibre cores. ( E ) Transmission image of a USAF target to demonstrate the resolution of the miniLM. The smallest lines on the target are 2.18 µm wide with equal separation distance, which we were able to resolve. The inset shows a line profile taken through the lines of Group 7, Element 6 of the USAF resolution target, confirming a resolution of better than 2.18 µm. The smaller background peaks were caused by the pixellation due to the discrete fibre cores. The target was illuminated with a white light LED through an objective of similar NA to the miniature objective.
3view Microtome Control Software Digital Micrograph, supplied by Gatan Inc, used in various techniques. Bioz Stars score: 97/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 97 stars, based on 1 article reviews
3view microtome control software digital micrograph - by Bioz Stars, 2026-06
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ht7800  (Hitachi Ltd)
99
Hitachi Ltd ht7800
( A ) Schematic of the interior of the <t>3View</t> SBF SEM chamber showing relative positions of major components and the location of the 3 mm gap between the top of the sample and the bottom of the BSE detector. ( B ) Schematic of the optical arrangement of the miniLM. ( C ) Schematic of the custom lens in the miniLM alongside a photograph showing the physical dimensions. The miniature microscope objective is attached to the end of a coherent fibre bundle, which serves to feed the image out of the vacuum chamber. ( D ) Schematic of the coherent fibre bundle. An image presented to the proximal end of the fibre is relayed in a spatially coherent manner to the distal end. Note the resultant pixellation of the image due to the finite number of fibre cores. ( E ) Transmission image of a USAF target to demonstrate the resolution of the miniLM. The smallest lines on the target are 2.18 µm wide with equal separation distance, which we were able to resolve. The inset shows a line profile taken through the lines of Group 7, Element 6 of the USAF resolution target, confirming a resolution of better than 2.18 µm. The smaller background peaks were caused by the pixellation due to the discrete fibre cores. The target was illuminated with a white light LED through an objective of similar NA to the miniature objective.
Ht7800, supplied by Hitachi Ltd, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/ht7800/product/Hitachi Ltd
Average 99 stars, based on 1 article reviews
ht7800 - by Bioz Stars, 2026-06
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microtime 200 sted microscope  (PicoQuant inc)
90
PicoQuant inc microtime 200 sted microscope
( A ) Schematic of the interior of the <t>3View</t> SBF SEM chamber showing relative positions of major components and the location of the 3 mm gap between the top of the sample and the bottom of the BSE detector. ( B ) Schematic of the optical arrangement of the miniLM. ( C ) Schematic of the custom lens in the miniLM alongside a photograph showing the physical dimensions. The miniature microscope objective is attached to the end of a coherent fibre bundle, which serves to feed the image out of the vacuum chamber. ( D ) Schematic of the coherent fibre bundle. An image presented to the proximal end of the fibre is relayed in a spatially coherent manner to the distal end. Note the resultant pixellation of the image due to the finite number of fibre cores. ( E ) Transmission image of a USAF target to demonstrate the resolution of the miniLM. The smallest lines on the target are 2.18 µm wide with equal separation distance, which we were able to resolve. The inset shows a line profile taken through the lines of Group 7, Element 6 of the USAF resolution target, confirming a resolution of better than 2.18 µm. The smaller background peaks were caused by the pixellation due to the discrete fibre cores. The target was illuminated with a white light LED through an objective of similar NA to the miniature objective.
Microtime 200 Sted Microscope, supplied by PicoQuant inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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microtime 200 sted microscope - by Bioz Stars, 2026-06
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microscope bz-x810  (KEYENCE)
90
KEYENCE microscope bz-x810
( A ) Schematic of the interior of the <t>3View</t> SBF SEM chamber showing relative positions of major components and the location of the 3 mm gap between the top of the sample and the bottom of the BSE detector. ( B ) Schematic of the optical arrangement of the miniLM. ( C ) Schematic of the custom lens in the miniLM alongside a photograph showing the physical dimensions. The miniature microscope objective is attached to the end of a coherent fibre bundle, which serves to feed the image out of the vacuum chamber. ( D ) Schematic of the coherent fibre bundle. An image presented to the proximal end of the fibre is relayed in a spatially coherent manner to the distal end. Note the resultant pixellation of the image due to the finite number of fibre cores. ( E ) Transmission image of a USAF target to demonstrate the resolution of the miniLM. The smallest lines on the target are 2.18 µm wide with equal separation distance, which we were able to resolve. The inset shows a line profile taken through the lines of Group 7, Element 6 of the USAF resolution target, confirming a resolution of better than 2.18 µm. The smaller background peaks were caused by the pixellation due to the discrete fibre cores. The target was illuminated with a white light LED through an objective of similar NA to the miniature objective.
Microscope Bz X810, supplied by KEYENCE, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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microtome leitz 1515  (Leitz GmbH)
90
Leitz GmbH microtome leitz 1515
( A ) Schematic of the interior of the <t>3View</t> SBF SEM chamber showing relative positions of major components and the location of the 3 mm gap between the top of the sample and the bottom of the BSE detector. ( B ) Schematic of the optical arrangement of the miniLM. ( C ) Schematic of the custom lens in the miniLM alongside a photograph showing the physical dimensions. The miniature microscope objective is attached to the end of a coherent fibre bundle, which serves to feed the image out of the vacuum chamber. ( D ) Schematic of the coherent fibre bundle. An image presented to the proximal end of the fibre is relayed in a spatially coherent manner to the distal end. Note the resultant pixellation of the image due to the finite number of fibre cores. ( E ) Transmission image of a USAF target to demonstrate the resolution of the miniLM. The smallest lines on the target are 2.18 µm wide with equal separation distance, which we were able to resolve. The inset shows a line profile taken through the lines of Group 7, Element 6 of the USAF resolution target, confirming a resolution of better than 2.18 µm. The smaller background peaks were caused by the pixellation due to the discrete fibre cores. The target was illuminated with a white light LED through an objective of similar NA to the miniature objective.
Microtome Leitz 1515, supplied by Leitz 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/result/microtome leitz 1515/product/Leitz GmbH
Average 90 stars, based on 1 article reviews
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scanning transmission electron microscope  (Siemens AG)
90
Siemens AG scanning transmission electron microscope
( A ) Schematic of the interior of the <t>3View</t> SBF SEM chamber showing relative positions of major components and the location of the 3 mm gap between the top of the sample and the bottom of the BSE detector. ( B ) Schematic of the optical arrangement of the miniLM. ( C ) Schematic of the custom lens in the miniLM alongside a photograph showing the physical dimensions. The miniature microscope objective is attached to the end of a coherent fibre bundle, which serves to feed the image out of the vacuum chamber. ( D ) Schematic of the coherent fibre bundle. An image presented to the proximal end of the fibre is relayed in a spatially coherent manner to the distal end. Note the resultant pixellation of the image due to the finite number of fibre cores. ( E ) Transmission image of a USAF target to demonstrate the resolution of the miniLM. The smallest lines on the target are 2.18 µm wide with equal separation distance, which we were able to resolve. The inset shows a line profile taken through the lines of Group 7, Element 6 of the USAF resolution target, confirming a resolution of better than 2.18 µm. The smaller background peaks were caused by the pixellation due to the discrete fibre cores. The target was illuminated with a white light LED through an objective of similar NA to the miniature objective.
Scanning Transmission Electron Microscope, supplied by Siemens AG, 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/result/scanning transmission electron microscope/product/Siemens AG
Average 90 stars, based on 1 article reviews
scanning transmission electron microscope - by Bioz Stars, 2026-06
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microtome  (Fisher Scientific)
86
Fisher Scientific microtome
( A ) Schematic of the interior of the <t>3View</t> SBF SEM chamber showing relative positions of major components and the location of the 3 mm gap between the top of the sample and the bottom of the BSE detector. ( B ) Schematic of the optical arrangement of the miniLM. ( C ) Schematic of the custom lens in the miniLM alongside a photograph showing the physical dimensions. The miniature microscope objective is attached to the end of a coherent fibre bundle, which serves to feed the image out of the vacuum chamber. ( D ) Schematic of the coherent fibre bundle. An image presented to the proximal end of the fibre is relayed in a spatially coherent manner to the distal end. Note the resultant pixellation of the image due to the finite number of fibre cores. ( E ) Transmission image of a USAF target to demonstrate the resolution of the miniLM. The smallest lines on the target are 2.18 µm wide with equal separation distance, which we were able to resolve. The inset shows a line profile taken through the lines of Group 7, Element 6 of the USAF resolution target, confirming a resolution of better than 2.18 µm. The smaller background peaks were caused by the pixellation due to the discrete fibre cores. The target was illuminated with a white light LED through an objective of similar NA to the miniature objective.
Microtome, supplied by Fisher Scientific, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/microtome/product/Fisher Scientific
Average 86 stars, based on 1 article reviews
microtome - by Bioz Stars, 2026-06
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tomo adhesion microscope slides  (Matsunami Glass)
86
Matsunami Glass tomo adhesion microscope slides
( A ) Schematic of the interior of the <t>3View</t> SBF SEM chamber showing relative positions of major components and the location of the 3 mm gap between the top of the sample and the bottom of the BSE detector. ( B ) Schematic of the optical arrangement of the miniLM. ( C ) Schematic of the custom lens in the miniLM alongside a photograph showing the physical dimensions. The miniature microscope objective is attached to the end of a coherent fibre bundle, which serves to feed the image out of the vacuum chamber. ( D ) Schematic of the coherent fibre bundle. An image presented to the proximal end of the fibre is relayed in a spatially coherent manner to the distal end. Note the resultant pixellation of the image due to the finite number of fibre cores. ( E ) Transmission image of a USAF target to demonstrate the resolution of the miniLM. The smallest lines on the target are 2.18 µm wide with equal separation distance, which we were able to resolve. The inset shows a line profile taken through the lines of Group 7, Element 6 of the USAF resolution target, confirming a resolution of better than 2.18 µm. The smaller background peaks were caused by the pixellation due to the discrete fibre cores. The target was illuminated with a white light LED through an objective of similar NA to the miniature objective.
Tomo Adhesion Microscope Slides, supplied by Matsunami Glass, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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tomo adhesion microscope slides - by Bioz Stars, 2026-06
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sliding microtome hm 400r  (Microm International GmbH)
90
Microm International GmbH sliding microtome hm 400r
( A ) Schematic of the interior of the <t>3View</t> SBF SEM chamber showing relative positions of major components and the location of the 3 mm gap between the top of the sample and the bottom of the BSE detector. ( B ) Schematic of the optical arrangement of the miniLM. ( C ) Schematic of the custom lens in the miniLM alongside a photograph showing the physical dimensions. The miniature microscope objective is attached to the end of a coherent fibre bundle, which serves to feed the image out of the vacuum chamber. ( D ) Schematic of the coherent fibre bundle. An image presented to the proximal end of the fibre is relayed in a spatially coherent manner to the distal end. Note the resultant pixellation of the image due to the finite number of fibre cores. ( E ) Transmission image of a USAF target to demonstrate the resolution of the miniLM. The smallest lines on the target are 2.18 µm wide with equal separation distance, which we were able to resolve. The inset shows a line profile taken through the lines of Group 7, Element 6 of the USAF resolution target, confirming a resolution of better than 2.18 µm. The smaller background peaks were caused by the pixellation due to the discrete fibre cores. The target was illuminated with a white light LED through an objective of similar NA to the miniature objective.
Sliding Microtome Hm 400r, supplied by Microm International 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/result/sliding microtome hm 400r/product/Microm International GmbH
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microscope zeiss axioplan2  (Carl Zeiss)
90
Carl Zeiss microscope zeiss axioplan2
( A ) Schematic of the interior of the <t>3View</t> SBF SEM chamber showing relative positions of major components and the location of the 3 mm gap between the top of the sample and the bottom of the BSE detector. ( B ) Schematic of the optical arrangement of the miniLM. ( C ) Schematic of the custom lens in the miniLM alongside a photograph showing the physical dimensions. The miniature microscope objective is attached to the end of a coherent fibre bundle, which serves to feed the image out of the vacuum chamber. ( D ) Schematic of the coherent fibre bundle. An image presented to the proximal end of the fibre is relayed in a spatially coherent manner to the distal end. Note the resultant pixellation of the image due to the finite number of fibre cores. ( E ) Transmission image of a USAF target to demonstrate the resolution of the miniLM. The smallest lines on the target are 2.18 µm wide with equal separation distance, which we were able to resolve. The inset shows a line profile taken through the lines of Group 7, Element 6 of the USAF resolution target, confirming a resolution of better than 2.18 µm. The smaller background peaks were caused by the pixellation due to the discrete fibre cores. The target was illuminated with a white light LED through an objective of similar NA to the miniature objective.
Microscope Zeiss Axioplan2, supplied by Carl Zeiss, 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/result/microscope zeiss axioplan2/product/Carl Zeiss
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zeiss microtome hm340e  (Carl Zeiss)
90
Carl Zeiss zeiss microtome hm340e
( A ) Schematic of the interior of the <t>3View</t> SBF SEM chamber showing relative positions of major components and the location of the 3 mm gap between the top of the sample and the bottom of the BSE detector. ( B ) Schematic of the optical arrangement of the miniLM. ( C ) Schematic of the custom lens in the miniLM alongside a photograph showing the physical dimensions. The miniature microscope objective is attached to the end of a coherent fibre bundle, which serves to feed the image out of the vacuum chamber. ( D ) Schematic of the coherent fibre bundle. An image presented to the proximal end of the fibre is relayed in a spatially coherent manner to the distal end. Note the resultant pixellation of the image due to the finite number of fibre cores. ( E ) Transmission image of a USAF target to demonstrate the resolution of the miniLM. The smallest lines on the target are 2.18 µm wide with equal separation distance, which we were able to resolve. The inset shows a line profile taken through the lines of Group 7, Element 6 of the USAF resolution target, confirming a resolution of better than 2.18 µm. The smaller background peaks were caused by the pixellation due to the discrete fibre cores. The target was illuminated with a white light LED through an objective of similar NA to the miniature objective.
Zeiss Microtome Hm340e, supplied by Carl Zeiss, 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/result/zeiss microtome hm340e/product/Carl Zeiss
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reichert jung ultrathin microtome  (Werke GmbH)
90
Werke GmbH reichert jung ultrathin microtome
( A ) Schematic of the interior of the <t>3View</t> SBF SEM chamber showing relative positions of major components and the location of the 3 mm gap between the top of the sample and the bottom of the BSE detector. ( B ) Schematic of the optical arrangement of the miniLM. ( C ) Schematic of the custom lens in the miniLM alongside a photograph showing the physical dimensions. The miniature microscope objective is attached to the end of a coherent fibre bundle, which serves to feed the image out of the vacuum chamber. ( D ) Schematic of the coherent fibre bundle. An image presented to the proximal end of the fibre is relayed in a spatially coherent manner to the distal end. Note the resultant pixellation of the image due to the finite number of fibre cores. ( E ) Transmission image of a USAF target to demonstrate the resolution of the miniLM. The smallest lines on the target are 2.18 µm wide with equal separation distance, which we were able to resolve. The inset shows a line profile taken through the lines of Group 7, Element 6 of the USAF resolution target, confirming a resolution of better than 2.18 µm. The smaller background peaks were caused by the pixellation due to the discrete fibre cores. The target was illuminated with a white light LED through an objective of similar NA to the miniature objective.
Reichert Jung Ultrathin Microtome, supplied by Werke 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/result/reichert jung ultrathin microtome/product/Werke GmbH
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Image Search Results


( A ) Schematic of the interior of the 3View SBF SEM chamber showing relative positions of major components and the location of the 3 mm gap between the top of the sample and the bottom of the BSE detector. ( B ) Schematic of the optical arrangement of the miniLM. ( C ) Schematic of the custom lens in the miniLM alongside a photograph showing the physical dimensions. The miniature microscope objective is attached to the end of a coherent fibre bundle, which serves to feed the image out of the vacuum chamber. ( D ) Schematic of the coherent fibre bundle. An image presented to the proximal end of the fibre is relayed in a spatially coherent manner to the distal end. Note the resultant pixellation of the image due to the finite number of fibre cores. ( E ) Transmission image of a USAF target to demonstrate the resolution of the miniLM. The smallest lines on the target are 2.18 µm wide with equal separation distance, which we were able to resolve. The inset shows a line profile taken through the lines of Group 7, Element 6 of the USAF resolution target, confirming a resolution of better than 2.18 µm. The smaller background peaks were caused by the pixellation due to the discrete fibre cores. The target was illuminated with a white light LED through an objective of similar NA to the miniature objective.

Journal: Wellcome Open Research

Article Title: ultraLM and miniLM: Locator tools for smart tracking of fluorescent cells in correlative light and electron microscopy

doi: 10.12688/wellcomeopenres.10299.1

Figure Lengend Snippet: ( A ) Schematic of the interior of the 3View SBF SEM chamber showing relative positions of major components and the location of the 3 mm gap between the top of the sample and the bottom of the BSE detector. ( B ) Schematic of the optical arrangement of the miniLM. ( C ) Schematic of the custom lens in the miniLM alongside a photograph showing the physical dimensions. The miniature microscope objective is attached to the end of a coherent fibre bundle, which serves to feed the image out of the vacuum chamber. ( D ) Schematic of the coherent fibre bundle. An image presented to the proximal end of the fibre is relayed in a spatially coherent manner to the distal end. Note the resultant pixellation of the image due to the finite number of fibre cores. ( E ) Transmission image of a USAF target to demonstrate the resolution of the miniLM. The smallest lines on the target are 2.18 µm wide with equal separation distance, which we were able to resolve. The inset shows a line profile taken through the lines of Group 7, Element 6 of the USAF resolution target, confirming a resolution of better than 2.18 µm. The smaller background peaks were caused by the pixellation due to the discrete fibre cores. The target was illuminated with a white light LED through an objective of similar NA to the miniature objective.

Article Snippet: The delay time until the motor was restarted at the miniLM imaging position was set to 1.5 s. The serial imaging run was set up and started using the 3View microtome control software Digital Micrograph (version 2.3, Gatan Inc.), and the miniLM control software was then started.

Techniques: Microscopy, Transmission Assay