The Vero AFM's high-resolution contact mode allows one to see small signals that would otherwise be lost in the noise with other AFMs. 𝗥𝗲𝗴𝗶𝘀𝘁𝗲𝗿 𝗳𝗼𝗿 𝗼𝘂𝗿 𝗝𝘂𝗹𝘆 𝟭𝟳 𝘄𝗲𝗯𝗶𝗻𝗮𝗿 to see how Vero makes this possible 👉 https://okt.to/Wc8vJo. #Nanotechnology #AtomicForceMicroscopy #Ferroelectric #Graphene #AFMWebinar
Oxford Instruments Asylum Research Inc.
Nanotechnology Research
Santa Barbara, CA 6,687 followers
Technology Leader in Atomic Force Microscopy
About us
Oxford Instruments Asylum Research is the technology leader in atomic force microscopy for both materials and bioscience research. Asylum Research AFMs are widely used by both academic and industrial researchers for characterizing samples from diverse fields spanning material science, polymers, thin films, semiconductors, energy research, and biophysics. In addition to routine imaging of sample topography and roughness, Asylum Research AFMs also offer unmatched resolution and quantitative measurement capability for nanoelectrical, nanomechanical and electromechanical characterization. Recent advances have made these measurements far simpler and more automated for increased consistency and productivity. The Cypher™ AFM has models for fast scanning, high resolution imaging, and video-rate AFM scan speeds, and easy environmental control. The MFP-3D™ AFM product lines span a wide range of performance, accessories and pricing with models at a price competitive with many low-cost AFMs. Asylum Research also offers its exclusive SurfRider™ AFM probes among a comprehensive selection of AFM probes, accessories and consumables. Sales, applications and service offices are located in the United States, Germany, United Kingdom, Japan, France, India, China and Taiwan, with distributor offices in other global regions. When you purchase an Asylum AFM, you are assured you will get the #1 customer service and support in the industry that only comes from being a part of the Asylum family.
- Website
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https://afm.oxinst.com
External link for Oxford Instruments Asylum Research Inc.
- Industry
- Nanotechnology Research
- Company size
- 51-200 employees
- Headquarters
- Santa Barbara, CA
- Type
- Public Company
- Founded
- 1999
- Specialties
- AFM, SPM, Nanotechnology, Nanomechanics, Nanoelectrical Characerization, Force Measurements, Atomic Force Microscopy, Scanning Probe Microscopy, Semiconductors, 2D Materials, Energy Storage, Biomolecular Science, and Quantum Materials
Locations
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Primary
Get directions
7416 Hollister Ave
Santa Barbara, CA 93117, US
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Get directions
Hauptstrasse 161
Commerce House, Telford Road
Mannheim, DE-68259, DE
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Get directions
Halifax Rd
High Wycombe, Buckinghamshire HP12 3SE, GB
Employees at Oxford Instruments Asylum Research Inc.
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Scott C. Friends
Director of Operations at Oxford Instruments Asylum Research Inc.
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Marta Kocun
Product Line Manager at Asylum Research, an Oxford Instruments Company
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Jonathan Moffat
Applications scientist
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Craig Herrin
Electrical Design Engineer at Asylum Research, an Oxford Instruments Company
Updates
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We're excited to announce we'll be exhibiting at #IPFA2024! Register now to secure your spot and receive a special gift 🎁 when you visit our booth 👉 https://okt.to/aWlPo2. This event takes place from 𝗝𝘂𝗹𝘆 𝟭𝟱-𝟭𝟴, 𝟮𝟬𝟮𝟰, at the Marina Bay Sands Expo and Convention Centre in Singapore. You can visit us at 𝗕𝗼𝗼𝘁𝗵 𝗔𝟰 to see live demonstrations of our Cypher AFM system and meet our experts to explore how our advanced AFM solutions can revolutionize your materials characterization processes. 📢 Don’t miss the Technology Showcase and Workshop on July 15th from 17:45 PM to 19:30 PM at MBS. Free admission with registration required. The first 120 sign-ups will receive a choice of a door gift or a complimentary MBS car park coupon. #Microscopy #AtomicForceMicroscopy #Semiconductor #FailureAnalysis
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The Vero AFM's high-resolution contact mode allows one to see small signals that would otherwise be lost in the noise with other AFMs. Join our 𝗝𝘂𝗹𝘆 𝟭𝟳 webinar to see how the #VeroAFM makes this possible 👉 https://okt.to/cBrEGL. In this example, the moiré contrast of twisted bilayer graphene is clearly visible in the QPDI topography channel. #AFMwebinar #AtomicForceMicroscopy #Ferroelectric #Graphene
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Ready for a new era of contact mode imaging? This month we are hosting a webinar on how to achieve higher resolution imaging than ever before using the revolutionary Vero AFM. Register to attend 👉 https://okt.to/eAwNkh. #AFMwebinar #AtomicForceMicroscopy #2Dmaterials #Graphene
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⌚Time's ticking... The #AFMImageContest2024 is coming to a close on June 30. If you haven't already, upload your AFM image(s) here to enter 👉 https://okt.to/MrOKhW. #AtomicForceMicroscopy #Nanotechnology
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📅 Save the date: on 𝗝𝘂𝗹𝘆 𝟭𝟳 we're hosting our next webinar! Join this one to learn how the #VeroAFM's contact mode outperforms traditional contact mode, plus an overview of Vero and QPDI detection. 𝗥𝗲𝗴𝗶𝘀𝘁𝗲𝗿 👉 https://lnkd.in/gbWz__9. #AFMwebinar #AtomicForceMicroscopy #2Dmaterials #Graphene
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⏳ Only 1 week left to submit your entry for the #AFMImageContest2024 for a chance to win fabulous prizes! Just upload your AFM image(s) here to enter: 👉 https://okt.to/yd7Qkb. #AtomicForceMicroscopy #Nanotechnology #Lithography
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Time's running out! You can submit your entry for the #AFMImageContest2024 by 𝗝𝘂𝗻𝗲 𝟯𝟬 for a chance to win fabulous prizes. We look forward to seeing your awesome AFM images! Contest guidelines here 👉 https://okt.to/h7dN9y. #AtomicForceMicroscopy #Nanotechnology #Lithography #Nanolithography
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And it's time for the reveal... This sample is Hafnium Oxide! Congrats Sergei Kalinin for identifying it correctly in the comments. #AtomicForceMicroscopy #Nanotechnology #Semiconductor #Semiconductors #Ferroelectric
For those of you who were puzzled by this 'mystery sample' image post, here are a few hints...Check out the info below and see if you can quess what it is! ➡️The sample is a ‘beyond Moore's law' storage material candidate. ➡️It has a weak ferroelectric coefficient (and is very challenging for conventional AFMs to image). ➡️The posted image was acquired with our new Vero (interferometric) AFM system. ➡️a-c are 6 um scans (scale bar = 1um), 1024x1024 point/lines, height, PFM amplitude, and phase, respectively. ➡️a'-c' are zoom-ins (scale bar = 400nm), showing some added detail. The smallest functional 'domain', meaning a bright spot in the amplitude channel is ~<20nm. #AtomicForceMicroscopy #Nanotechnology #VeroAFM
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There's still time left to submit to the #AFMImageContest2024! Send us your AFM image data by 𝗝𝘂𝗻𝗲 𝟯𝟬 for a chance to win fabulous prizes*! Learn more 👉 https://okt.to/0ZJBd5. *Conditions apply. See our contest page for more details. #AtomicForceMicroscopy #Nanotechnology #Lithography #Nanolithography
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