Timm Landes
@diephysiker.bsky.social
Physicist | biophysics | Building my interpretation of a Brillouin and Raman scattering microscope | working in the Heinemann lab at Leibniz University Hannover, Germany
Very interesting paper using the well-known Sandercock TFP design and adapting it to accommodate full field imaging, certainly worth a read!
Mikolaj Pochylski (Faculty of Physics,Astronomy, Adam Mickiewicz University, Poznan, Poland): Full-Field Brillouin Microscopy with a Scanning Fabry-Perot Interferometer https://arxiv.org/abs/2510.00700 https://arxiv.org/pdf/2510.00700 https://arxiv.org/html/2510.00700
October 7, 2025 at 5:59 AM
Very interesting paper using the well-known Sandercock TFP design and adapting it to accommodate full field imaging, certainly worth a read!
Reposted by Timm Landes
Deadline extended ‼️
The abstract submission deadline of the 9th International BioBrillouin Meeting (Berlin, 25-27 Nov 2025) is now extended to Oct 7, 2025.
Don't forget to submit your contribution: www.biobrillouin25.com
Looking forward to seeing you in Berlin!
@mpi-scienceoflight.bsky.social
The abstract submission deadline of the 9th International BioBrillouin Meeting (Berlin, 25-27 Nov 2025) is now extended to Oct 7, 2025.
Don't forget to submit your contribution: www.biobrillouin25.com
Looking forward to seeing you in Berlin!
@mpi-scienceoflight.bsky.social
September 29, 2025 at 10:25 PM
Deadline extended ‼️
The abstract submission deadline of the 9th International BioBrillouin Meeting (Berlin, 25-27 Nov 2025) is now extended to Oct 7, 2025.
Don't forget to submit your contribution: www.biobrillouin25.com
Looking forward to seeing you in Berlin!
@mpi-scienceoflight.bsky.social
The abstract submission deadline of the 9th International BioBrillouin Meeting (Berlin, 25-27 Nov 2025) is now extended to Oct 7, 2025.
Don't forget to submit your contribution: www.biobrillouin25.com
Looking forward to seeing you in Berlin!
@mpi-scienceoflight.bsky.social
Reposted by Timm Landes
How many photons are in a GFP? — more than last year, and more than you thought. Here's a simple, cheap, and practical method to break a fundamental limit in fluorescence microscopy. But it only works in light sheet!
August 19, 2025 at 7:31 PM
How many photons are in a GFP? — more than last year, and more than you thought. Here's a simple, cheap, and practical method to break a fundamental limit in fluorescence microscopy. But it only works in light sheet!
Reposted by Timm Landes
One of the key aspects influencing morphogenesis is mechanics. We mapped the mechanical properties of living roots at the tissue and cellular levels using Brillouin microscopy and molecular rotors.
www.biorxiv.org/content/10.1...
www.biorxiv.org/content/10.1...
August 1, 2025 at 4:29 PM
One of the key aspects influencing morphogenesis is mechanics. We mapped the mechanical properties of living roots at the tissue and cellular levels using Brillouin microscopy and molecular rotors.
www.biorxiv.org/content/10.1...
www.biorxiv.org/content/10.1...
Reposted by Timm Landes
🗺️ #MedUniVienna - under the leadership of Kareem Elsayad - is involved in the development & publication of the world's first consensus statement on Brillouin scattering #microscopy for biomedical applications.
Details in @natphoton.nature.com & here! 🔬⬇️
Details in @natphoton.nature.com & here! 🔬⬇️
Consensus statement on Brillouin scattering microscopy
Details on the international research milestone!
www.meduniwien.ac.at
July 4, 2025 at 6:44 AM
🗺️ #MedUniVienna - under the leadership of Kareem Elsayad - is involved in the development & publication of the world's first consensus statement on Brillouin scattering #microscopy for biomedical applications.
Details in @natphoton.nature.com & here! 🔬⬇️
Details in @natphoton.nature.com & here! 🔬⬇️
Reposted by Timm Landes
🥁 New article 📢: #Mechanobiology of #development during #Drosophila #gastrulation using #Brillouin microscopy, now in @natcomms.nature.com : rdcu.be/ev6ZX
Collab. w/ @Prevedel_Lab @embl.org , Maria Leptin @marialep.bsky.social, @abhisha-thayambath.bsky.social, Julio Belmonte @ncstate.bsky.social
Collab. w/ @Prevedel_Lab @embl.org , Maria Leptin @marialep.bsky.social, @abhisha-thayambath.bsky.social, Julio Belmonte @ncstate.bsky.social
July 15, 2025 at 2:12 PM
🥁 New article 📢: #Mechanobiology of #development during #Drosophila #gastrulation using #Brillouin microscopy, now in @natcomms.nature.com : rdcu.be/ev6ZX
Collab. w/ @Prevedel_Lab @embl.org , Maria Leptin @marialep.bsky.social, @abhisha-thayambath.bsky.social, Julio Belmonte @ncstate.bsky.social
Collab. w/ @Prevedel_Lab @embl.org , Maria Leptin @marialep.bsky.social, @abhisha-thayambath.bsky.social, Julio Belmonte @ncstate.bsky.social
Reposted by Timm Landes
Thrilled and proud about our latest advancement in Brillouin microscopy - enabling true light-sheet like mechanical imaging at high throughput. Out today in @naturephotonics.bsky.social
Congratulations Carlo! @carlobevilacqua.bsky.social
rdcu.be/eaDiX
Congratulations Carlo! @carlobevilacqua.bsky.social
rdcu.be/eaDiX
Full-field Brillouin microscopy based on an imaging Fourier-transform spectrometer
Nature Photonics - A Fourier-transform imaging spectrometer enables two-dimensional spectral Brillouin imaging at a throughput of up to 40,000 spectra per second over a...
rdcu.be
February 20, 2025 at 8:00 PM
Thrilled and proud about our latest advancement in Brillouin microscopy - enabling true light-sheet like mechanical imaging at high throughput. Out today in @naturephotonics.bsky.social
Congratulations Carlo! @carlobevilacqua.bsky.social
rdcu.be/eaDiX
Congratulations Carlo! @carlobevilacqua.bsky.social
rdcu.be/eaDiX
Reposted by Timm Landes
🚨 PhD Opportunity Alert! 🚨 I'm thrilled to announce my new project, Watchers on the Wall, exploring how plant cells sense and respond to stress through their walls. 🌱 A 5-year fully funded PhD position is open—please share with potential candidates! 👇 (1/7)
December 2, 2024 at 12:05 PM
🚨 PhD Opportunity Alert! 🚨 I'm thrilled to announce my new project, Watchers on the Wall, exploring how plant cells sense and respond to stress through their walls. 🌱 A 5-year fully funded PhD position is open—please share with potential candidates! 👇 (1/7)
Reposted by Timm Landes
Beyond comparison: Brillouin microscopy and AFM-based indentation reveal divergent insights into the mechanical profile of the murine retina https://www.biorxiv.org/content/10.1101/2024.01.24.577013v1
Beyond comparison: Brillouin microscopy and AFM-based indentation reveal divergent insights into the mechanical profile of the murine retina https://www.biorxiv.org/content/10.1101/2024.01.24.577013v1
Mechanical tissue properties increasingly serve as pivotal phenotypic characteristics that are subje
www.biorxiv.org
January 29, 2024 at 3:49 PM
Beyond comparison: Brillouin microscopy and AFM-based indentation reveal divergent insights into the mechanical profile of the murine retina https://www.biorxiv.org/content/10.1101/2024.01.24.577013v1
Reposted by Timm Landes
A Brillouin spectroscopy study of the apple fruit cuticle indicates spatial micro-mechanical inhomogeneities exist between the periclinal and anticlinal regions.
www.nature.com/articles/s42...
www.nature.com/articles/s42...
Micromechanical behavior of the apple fruit cuticle investigated by Brillouin light scattering microscopy - Communications Biology
A Brillouin spectroscopy study of the apple fruit cuticle indicates spatial micro-mechanical inhomogeneities exist between the periclinal and anticlinal regions.
www.nature.com
February 5, 2025 at 4:23 PM
A Brillouin spectroscopy study of the apple fruit cuticle indicates spatial micro-mechanical inhomogeneities exist between the periclinal and anticlinal regions.
www.nature.com/articles/s42...
www.nature.com/articles/s42...