The world’s most comprehensive MEMS vibration map with mega-data-points by DHM®, revealing the unprecedented details of each vibration mode with picometre resolution in a just few seconds! DHM® acquires information of XYZ motion for each data point in a single measurement, therefore enabling tracking of all axis simultaneously in the whole field of view. (Read more)
Michael Muschol, Caroline Wenders, Gunther Wennemuth, of Universitätsklinik Essen in Germany have demonstrated that sperm cells have a chiral memory that resides in a hypothetical elastic linkage within the flagellar machinery (PLOS ONE).
The sperm flagellar waveforms and swimming paths in four dimensions (X, Y, Z and time) have beend recorded using a DHM® T1000. (read more)
A new multimodality level has been reached with the DHM T1000-Fluo-Confocal delivered in November 2019 by Lyncée Tec to Prof WANG Gang from Department of Water and Soil Sciences at China Agriculture University in Beijing. This unique system provides the most comprehensive bio-imaging information by combining three modalities: (1) Quantitative Phase Measurement (QPM) by DHM®, (2) epifluorescence measurements, and (3) a rescan confocal microscope module. (Read more)
The new industrial DHM® series R100 and R200 are officially launched in December 2019 for industrial applications. They are designed specifically in a compact and lightweight way which is ready to be integrated directly on your robot arms and gantry conveyors
Thanks to the unique non-scanning instantaneous acquisition DHM technology, 3D topography is acquired incomparably quickly, with an interferometric resolution, on flight, and in the presence of environmental vibrations. (read more)
New world record! More than 100’000 3D topography per second to characterize transient and non-reversible phenomena
A new milestone has been reached in the field of ultrafast 3D topography measurements with the delivery to Professor James Friends, University California of San Diego, of a DHM T1000 equipped with a Photron Nova high speed camera enabling 12’500 3D topography Measurement Per Second (MPS) for a digital resolution of 1024×1024 pixels, and 116’000 MPS for 256×266 pixels … (read more)
plus d’information inscriptions
Unlock the advantages of quantitative phase imaging on your own microscope with a simple module addition.
The Digital Holographic Camera provides marker-free non-invasive images of your cells and allows to characterize them without perturbation.
Congratulations to our DHM users from Eindhoven University of Technology (The Netherlands) and from Kent State University (USA) for two recent papers published respectively in Nature Communications and Advanced Materials!
“Liquid crystal elastomer coatings with programmed response of surface profile“, Greta Babakhanova, Taras Turiv, Yubing Guo, Matthew Hendrikx, Qi-Huo Wei, Albert P.H.J. Schenning, Dirk J. Broer & Oleg D. Lavrentovich, Nature Communications 9, Article number: 456(2018), DOI:10.1038/s41467-018-02895-9
“Oscillating Chiral‐Nematic Fingerprints Wipe Away Dust“, Wei Feng, Dirk J. Broer & Danqing Liu, Advanced Materials 2018, 30 , 1704970, DOI: 10.1002/adma.201704970
An innovative Lens-less sensor scanning full wafer in 60 seconds ! Compact new design, easy to integrate, customizable UI! Fastest 3D profilometer ever build!
Congratulations to Dr. Marjan Zakerin from Max Planck Institute for Polymer Research in Germany, who won the “Best Poster Award” in MNE2017 in Braga, Portugal, for her outstanding work entitled: Thermogravimetric Analysis of Nano-gram CuSO4.5H2O by Digital Holographic Microscopy.
“I became a science super star with my DHM!”, said by Dr. Marjan Zakerin.
LyncéeTec is proud to announce the sale agreements in the US with Quantum Analytics.
Scott Japczynski, executive vice president of Quantum Analytics. :
QA press release
Lyncée Tec SA is very proud to introduce new features in the latest version of MEMS Analysis Tool V7.0! Users can update their version automatically to benefit of these new functions.
Lyncée Tec CEO Dr. Yves Emery will be giving a seminar on our latest 4D profilometry which enables the inspection and measurement of 3D topography and dynamical changes in unrivalled speed. You are invited to be part of this event where a series of applications in material science will be demonstrated, including time-resolved optical profilometry, MEMS, reflectometry and automated optical inspection.
When: Tuesday, May 9th, 11:00 AM – 3:00 PM
Where: Quantum Analytics, 3400 East Third Ave, Foster City, CA 94404, USA
The linear objective changer enables automatic change of objective lens on DHM-R series. This is required for advanced automation routines when samples has to be measured at different magnifications.
Published: March 27, 2017
Author(s) :
Abstract : Digital holographic microscopy (DHM) is a surface topography measurement technique with reported sub- nanometer vertical resolution. While made commercially available recently, few studies have evaluated the uncertainty or noise in the phase measurement by the DHM. As current research is using the DHM to monitor surface topography changes of dissolving materials under flowing water conditions, it is necessary to evaluate the effect of water and flow rate on the uncertainty in the measurement, as all previous studies have considered uncertainty in measurements made in air.
Download Paper
LyncéeTec is proud to announce the new Software Development Kit (SDK). It has been tested on production lines for more than a year in customer’s factories, one of the feedback : “we want to scale-up use of DHM®, it provides 3D topography at unrivaled speed”.
The SDK allows programmers to integrate the DHM® on quality control lines or as an OEM instrument.
Probing 8″ wafers is now possible thanks to the new version of the MEMS probing Platform. The new platform is compatible with 200 x 200 mm stages, up to 6 probes positioners can be installed.
Discover our range of probing platforms
Lyncée rewards the three winners of Lyncée Innovation Challenge 2016
1st prize: 6’000 USD Matthew Hendrikx, Eindhoven University of Technology, Netherlands
2nd prize: 3’000 USD Wendong Wang, Max Planck Institute, Germany
3rd prize: 1’000 USD Pasqualantonio Pingue, Scuola Normale Superiore, Italy
Visit the challenge website
A new Vacuum chamber is available
Full chamber specification : Vacuum & Thermal Chambers