61. Microscopy The microscopy Group at ORNL specializes in the development and application of advanced electron microscopy, atom probe tomography, and surface science techniques for the subnm http://www.ms.ornl.gov/microscopy/index.shtml

Microscopy Home Microscopy - Internal Home Microscopy Group Staff Instrumentation/Capabilities ... The Advanced Microscopy Laboratory (AML) Microscopy User Centers: MAUC SHaRE Research Highlights Instrument Reservations ... Comments Welcome to the Microscopy Group JOEL 2200FS Aberration-Corrected TEM/STEM The Microscopy Group at ORNL specializes in the development and application of advanced electron microscopy, atom probe tomography, and surface science techniques for the sub-nm scale characterization of the microstructure, chemical nature, and composition of materials. This world-class facility is comprised of a unique combination of state-of-the-art characterization instruments and staff members with expertise in materials science, microscopy, physics, and/or chemistry. the Shared Research Equipment (SHaRE) User Facility, which is one of three Electron Beam Microcharacterization Centers sponsored by the BES Scientific User Facilities Division the Materials Analysis User Center (MAUC), part of the High Temperature Materials Laboratory (HTML) User Facility, which focuses research

62. Microscopy - Definition Of Microscopy At YourDictionary.com the use of a microscope; investigation by means of a microscope http://www.yourdictionary.com/microscopy

63. AMMS HomePage Welcome to the Australian microscopy and Microanalysis Society (AMMS Inc.) Web Site http://www.microscopy.org.au/

64. Microscopy The Center for. Biological microscopy. The Center for Biological microscopy (CBM) provides equipment, consultation, training, or labor for the following (Mission http://microscopy.uc.edu/

65. Nikon MicroscopyU | Concepts And Formulas | Resolution The resolution of an optical microscope is defined as the shortest distance between two points on a specimen that can still be distingusihed as separate entities http://www.microscopyu.com/articles/formulas/formulasresolution.html

Nikon MicroscopyU - The Source for Microscopy Education Home Microscopy Tutorials Image Galleries Microscopy Basics ... Microscopy Basics > Resolution Resolution Print Version The resolution of an optical microscope is defined as the shortest distance between two points on a specimen that can still be distinguished by the observer or camera system as separate entities. An example of this important concept is presented in the figure below (Figure 1), where point sources of light from a specimen appear as Airy diffraction patterns at the microscope intermediate image plane. The limit of resolution of a microscope objective refers to its ability to distinguish between two closely spaced Airy disks in the diffraction pattern (noted in the figure). Three-dimensional representations of the diffraction pattern near the intermediate image plane are known as the point spread function , and are illustrated in the lower portion of Figure 1. The specimen image is represented by a series of closely spaced point light sources that form Airy patterns and is illustrated in both two and three dimensions. Resolution is a somewhat subjective value in optical microscopy because at high magnification, an image may appear unsharp but still be resolved to the maximum ability of the objective. Numerical aperture determines the resolving power of an objective, but the total resolution of the entire microscope optical train is also dependent upon the numerical aperture of the substage condenser. The higher the numerical aperture of the total system, the better the resolution.

66. UCSD Microscopy - Home The School of Medicine, in conjunction with the UCSD Neuroscience microscopy Shared Facility and the UCSD Moores Cancer Center Digital Imaging Facility, sponsors and maintains http://microscopy.ucsd.edu/

School of Medicine - Light Microscopy Facility UNIVERSITY OF CALIFORNIA, SAN DIEGO The School of Medicine, in conjunction with the UCSD Neuroscience Microscopy Shared Facility and the UCSD Moores Cancer Center Digital Imaging Facility , sponsors and maintains a state of the art Light Microscopy Facility that is available to UCSD Investigators on a recharge basis. New Equipment for the Microscopy Facility! Coming in November 2010. Click on the link below to read more about it. Applied Precision OMX Super Resolution System Links to other Cores UCSD Core Bio Services - Recharge Facility for various Media, Solutions and other research related products. BioGem Micro-Array Facility - Custom microarray fabrication and processing of commercially available Microarrays.

67. Czechoslovak Microscopy Society (Home Page) Lists news, meetings, membership details, and links to other societies and microscopy resources in the Czech Republic. http://www.csem.isibrno.cz/

What's New Executive Board Membership Events ... Minutes of Meetings (in Czech) Bulletin EMS and IFSEM Microscopy Resources Search Czechoslovak Microscopy Society This is only the archive site of the Czechoslovak Microscopy Society (formerly Czechoslovak Society for Electron Microscopy) Move to the www.microscopy.cz for the current CSMS information. Czechoslovak Microscopy Society Institute of Experimental Medicine Academy of Sciences of the Czech Republic Videnska 1083 CZ - 142 20 Prague 4 Czech Republic phone: +420 241 062 219 fax: +420 241 062 219 e-mail: csms@biomed.cas.cz webmaster: petr@isibrno.cz

68. Duke University Light Microscopy Core Facility - Equipment Duke University Light microscopy Core Facility Fluorescence widefield and confocal microscope imaging and image analysis shared resource http://microscopy.duke.edu/equipment.html

Equipment Leica SP5 confocal Zeiss 510 inverted confocal Zeiss 510 upright confocal ... Search Equipment Equipment locations Help me choose the best system for my experiment Capabilities Leica SP5 confocal microscope Confocal imaging of fixed or live samples Inverted microscope 405, Ar/2, 561, 594, 633 laser lines AOBS based system Conventional and resonant scanners Three Spectral detectors 10x to 100x objectives (dry, water, oil) Environmental chamber for live cells Zeiss LSM 510 inverted confocal microscope Inverted microscope 405, Ar/2, 561, 594, 633 lasers 10x dry to 100x oil objectives Ideal for multicolour imaging of fixed samples Motorized stage Zeiss LSM 780 upright confocal microscope System is optimized for in vivo imaging High sensitivity GaAsP spectral array detector Upright fixed stage Axio Examiner microscope Water and low mag dry objectives 405, Ar/2, 561, 633 laser lines Zeiss LSM 510 upright confocal microscope Generally reserved for experiments where a live specimen is imaged over a period of several hours. Upright microscope Water objectives ideal for living specimens UV, Ar/2, 543, 633 laser lines

69. Trichomoniasis - Microscopy Findings Page 1 microscopy Links to brief .AVI movies of Trichomonas vaginalis microscopy. Trophozoites of Trichomonas vaginalis are pyriform and 7-30 m long. http://www.dpd.cdc.gov/dpdx/HTML/Frames/S-Z/Trichomoniasis/body_Trichomoniasis_m

[Last Modified: [Trichomonas vaginalis] Microscopy Trophozoites of Trichomonas vaginalis are pyriform and 7-30 µm long. They have five flagella: four anteriorly directed flagella and one posteriorly along the outer membrane of the undulating membrane. The large nucleus is usually located at the wider, anterior end and contains many chromatin granules and a small karyosome. The cytoplasm also contains many granules, but these are often not seen in Giemsa-stained specimens. A B A: Two trophozoites of T. vaginalis obtained from in vitro culture, stained with Giemsa. B: Trophozoite of T. vaginalis in a vaginal smear, stained with Giemsa. C D C D: Trophozoites of T. vaginalis in a vaginal smear, stained with Giemsa. Click here to view a video clip #1 of Trichomonas vaginalis (Adobe Flash) Wet mount examination of vaginal secretions from a patient with Trichomonas vaginitis. The organisms are motile, pear-shaped, 10 µm by 7 µm, with visible flagella. Click here to view a video clip #2 of Trichomonas vaginalis (Adobe Flash) Wet mount examination of a culture of Trichomonas vaginalis

70. Field Emission Laboratory A laboratory engaged in exclusive research on field emission and field ion microscopy. http://physics.unipune.ernet.in/~fem/

Department of Physics University of Pune FIELD EMISSION / ION MICROSCOPY LABORATORY Field Emission Laboratory at the Department of Physics, has a history as old as 25 years. Research in field emission started in the first phase of expansion of the department, when it focussed its research on the important areas in experimental Physics and Materials Science. It is hard to believe at present, the lab was established when the basic requirements were hardly available. However, with the relentless efforts of Prof. P. L. Kanitkar , along with his students D S Joag and C V Dharmadhikari, the first field emission pattern was observed in the year 1975. The in-house facilities were developed from scratch under difficult situations. From there, the laboratory improved by the development of Field Ion Microscope and a Time of flight Atom Probe . Today this Laboratory is led by Prof. D S Joag and stands unique in the country with all field emission techniques under one roof. Over the past 20 years, many students have completed their Ph D in Field Emission Laboratory. Dr. C V Dharmadhikari

71. Modern Research And Educational Topics In Microscopy Online edition of this book edited by A Mendez-Vilas and J Diaz. http://www.formatex.org/microscopy3/

Modern Research and Educational Topics in Microscopy 2007 Edition About the Edition Topics Table of Contents Content (FREE!) ... Purchase Form (Bank Transfer) Series ISBN-13: 978-84-611-9418-6 Vol. 1 ISBN-13: 978-84-611-9419-3 Series ISBN-13: 978-84-611-9418-6 Vol. 2 ISBN-13: 978-84-611-9420-9 Papers of this edition are being cited in... © 2007 Formatex

72. ESEMIR Third-part laboratory for microstructural analyses by Environmental Electron microscopy and FT-IR infra red microscopy. http://www.esemir.it/inglese.htm

73. GAeN Website Prof. J. Arbiol and his group are developing and applying electron nanoscopy and microscopy tools to characterize a wide variety of materials including semiconductors, superconductors, magnetic materials, metals and catalysts. http://www.icmab.cat/gaen/

74. Analytical Testing Laboratory | Our Laboratory Provides Scanning Electron Micros Provides full service microscopy consulting and analytical services for SEM-EDS, 3-D metrology and optical microscopy. http://www.atl.semtechsolutions.com

SEMTech Solutions SEMTech Solutions Analytical Testing Lab Outsourced SEM analysis STS-Elionix Skip to Main Content Home Analytical Applications ... Contact Us - Forms STS Analytical Testing Lab provides full service microscopy consulting and analytical services for SEM/EDS, 3-D metrology and optical microscopy. Analytical Applications Find out about all the analytical services we provide, including: Geology/Mineralogy-BSE mode Materials verification Membrane Filtration Technology Metallurgical Studies ... Training SEMTech Solutions now offers training on your SEM/EDX system. Back Scattered Electron (BSE) Imaging Sample Preparation Ernie's Journal Visit Ernie’s Journal for what’s this, what’s new, check a link or ask a question. Updated Particle / Pore Size Analysis Capabilities Recently our SEM Analytical Laboratory has upgraded software to perform true statistical analysis on particles and pores. To find out more, see our page dedicated to Particle / Pore Size Analysis. Addition of a Variable Pressure SEM SEMTech Solutions announces the addition of a Variable-Pressure Scanning Electron Microscope (VPSEM) to the Analytical Testing Lab Services. Email this page Learn More Find out what we use in the lab.

75. Microscopy-UK Full Menu Of Microscopy And Microscopes On The Web UK organization has extensive information resources, image archives and educational links. Publishes Micscape magazine monthly. http://www.microscopy-uk.org.uk/

Microscopy-UK Welcome to Microscopy-UK's main menu, the home of enthusiast microscopy on the web. Whether you own a microscope or not, discover the small scale microscopy world with us - a site contributed to by microscopists all over the world. A monthly magazine (micscape), microscopy videos, microscopy how-to articles, 3D microscopy, an online shop, stunning images, thousands of pages to help you understand the world beneath a microscope. A benevolent site helping the world at large discover a tiny one within, only visible through a microscope. You can also visit a full catalogue of monocular microscopes, stereo microscopes, and trinocular microscopes through our online microscope shop run by Brunel Microscopes in the UK. Each month, our microscopy magazine, micscape, is updated with articles on everything you can discover in the microscopy universe. Welcome! You are using a browser that doesn't support our menu navigation system which uses Frames. No worry, we are prepared for this. You can see everything you are looking for by clicking on the links below. Click here for our front page!

76. LED Fluorescence LED fluorescence as a low-cost replacement for traditional fluorescence microscopy. http://www.viewsfromscience.com/documents/webpages/led_fluorescence.html

Biologists usually need to enhance and differentiate details within living or fixed cells. To do this, special dyes are applied. To increase the sensitivity of observation, dyes (fluorochromes) that fluoresce under invisible or visible radiation are used to stain and delineate the structures of interest. Sometimes, the inherent tendency of some cellular components to fluoresce without additional staining may be usefully employed. This autofluorescence can be seen in cellular components ranging from plant chlorophylls to proteins in eye tissue. Unlike traditional biological staining (e.g., methylene blue and eosin for tissue differentiation), due to the remarkable efficiency and detectability of fluorochromes fluorescing under UV or visible light, much smaller concentrations of these dyes (generally toxic) can be used. This translates into fewer side effects to living cells with minimum disruption to their normal physiology. Also, the biochemical workings of cells, such as calcium ion transport, can be recorded in time-lapse mode using fluorescence microscopy. Generally, high-pressure mercury or xenon light sources are used for fluorescence microscopy. The lamps are very bright and produce ample light for most work. Sometimes, these sources are too bright and harmful for the living organisms being studied. Excessive brightness will cause rapid photobleaching of the dyes used to stain the tissues in question. Also, very powerful lights can destroy cells or, at least, disrupt their normal behavior. There are substantial costs and some hazards involved in using mercury or xenon lamps. To get around these problems for certain applications, I developed a novel technique employing easily obtainable ultrabright LEDs.

77. Microscopy Training Offered by Brunel (UK), a variety of light microscopy training courses for the beginner to advanced microscopist. http://www.microscopytraining.co.uk/

this site is run and maintained by brunel microscopes if there are problems viewing this page click here to download macromedia flash player home courses bookings about us dates ... microscopes m icroscopy t raining u k

78. MicrobeHunter.com - Essential Microscopy Information A microscopy resource for educators and enthusiasts. The site includes information on specimen preparation, observation ideas and microscopy theory. http://www.microbehunter.com

@import "http://www.microbehunter.com/wp/wp-content/themes/microscopy_theme/domtab/domtab.css"; Home All Posts Browse by Categories Forum ... About Microscopy Forum! Can't find what you are looking for? Why not post a question in the Microscopy Forum Microscopy Categories Uncategorized Accessories Buying Advice Observations and pictures Maintenance Microscopy Basics Labwork Techniques Theory Videos Photography Editorial Virtual Microscope Recommended reading Howto Microscopy FAQ Archive Select Month October 2010 (4) September 2010 (8) August 2010 (7) June 2010 (4) May 2010 (6) April 2010 (2) February 2010 (10) January 2010 (18) December 2009 (1) November 2009 (4) February 2009 (5) January 2009 (24) December 2008 (38) Check this out! Popular Beginner Videos Zoom! ... Virtual microscope: Aristolochia sipho Recent Comments alana on Electron Microscopes vs. Optical (Light) microscopes Greg Bartgis on Some Thoughts on Recreational / Amateur Microscopy Karina on How to make microscope filters gemma on Electron Microscopes vs. Optical (Light) microscopes Anah on Electron Microscopes vs. Optical (Light) microscopes

79. Scanning Tunneling Microscopy Image gallery of metal surfaces, generated at the IBM Almaden Research Center in San Jose, CA. http://www.almaden.ibm.com/vis/stm/

Scanning Tunneling Microscopy Quantum Corrals Scientists discovered a new method for confining electrons to artificial structures at the nanometer lengthscale. Surface state electrons on Cu(111) were confined to closed structures (corrals) defined by barriers built from Fe adatoms. The barriers were assembled by individually positioning Fe adatoms using the tip of a low temperature scanning tunneling microscope (STM). A circular corral of radius 71.3 Angstrom was constructed in this way out of 48 Fe adatoms. This STM image shows the direct observation of standing-wave patterns in the local density of states of the Cu(111) surface. These spatial oscillations are quantum-mechanical interference patterns caused by scattering of the two-dimensional electron gas off the Fe adatoms and point defects. Click HERE for an even higher resolution TIFF image! STM Image Gallery In the STM Image Gallery you will find a collection of really nice visualizations of all sorts of different surfaces. Atomic Fly-By Press this button (311 kB) to fly through an atomic landscape...

80. Kruse Research Group - Home Using scanning probe microscopy to explore and manipulate semiconductor surfaces. Department of Chemistry at McMaster University. http://www.chemistry.mcmaster.ca/kruse/

Kruse Research Group - Home Home Research Publications Group ... Links Peter Kruse Associate Professor of Chemistry McMaster University Dipl. Chem. Friedrich Schiller University, Jena Ph.D. University of California, San Diego Surface Chemistry Scanning Probe Techniques New Group Members Welcome! Department of Chemistry McMaster University 1280 Main St.W. Hamilton, Ontario Canada L8S 4M1 Phone: (905) 525-9140 (+ext.) Fax: (905) 522-2509 email: Office: ABB-263 (ext. 23480) Lab: ABB-AB101 (ext. 26322) Wet-Lab: ABB-112 (ext. 23265) Small scale molecular probe. Peter Kruse's Profile on the Community of Science Peter Kruse's Profile on ResearcherID Page background is an SEM image of nanometer scale dimples generated during electropolishing of tantalum. (pk) 09 September 2009

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