#microlasers — Public Fediverse posts
Live and recent posts from across the Fediverse tagged #microlasers, aggregated by home.social.
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Cells Now Emit Light: Tiny Lasers Developed for Inside Biological Functions
Tiny new lasers can now fit inside living cells to measure forces up to 50 nanonewtons. This helps scientists understand cell functions better.
#MicroLasers, #CellBiology, #ScientificResearch, #MedicalInnovation, #ForceMeasurement
https://newsletter.tf/micro-lasers-measure-force-inside-cells/
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Scientists have created tiny lasers that can go inside cells. These lasers can measure forces, which is a new way to study how cells work.
#MicroLasers, #CellBiology, #ScientificResearch, #MedicalInnovation, #ForceMeasurement
https://newsletter.tf/micro-lasers-measure-force-inside-cells/ -
Researchers have developed microscopic glass bead lasers—measuring between 0.1mm and 0.01mm—capable of acting as highly sensitive optical biosensors. These #microlasers can detect materials at an unprecedented scale, identifying individual molecules and single atomic ions.
#OpticalPhysics #Biophysics #Biochemistry #MedicalDiagnostics #Photonics #sflorg
https://www.sflorg.com/2026/03/phy03252601.html -
Researchers have developed microscopic glass bead lasers—measuring between 0.1mm and 0.01mm—capable of acting as highly sensitive optical biosensors. These #microlasers can detect materials at an unprecedented scale, identifying individual molecules and single atomic ions.
#OpticalPhysics #Biophysics #Biochemistry #MedicalDiagnostics #Photonics #sflorg
https://www.sflorg.com/2026/03/phy03252601.html -
Researchers have developed microscopic glass bead lasers—measuring between 0.1mm and 0.01mm—capable of acting as highly sensitive optical biosensors. These #microlasers can detect materials at an unprecedented scale, identifying individual molecules and single atomic ions.
#OpticalPhysics #Biophysics #Biochemistry #MedicalDiagnostics #Photonics #sflorg
https://www.sflorg.com/2026/03/phy03252601.html -
Researchers have developed microscopic glass bead lasers—measuring between 0.1mm and 0.01mm—capable of acting as highly sensitive optical biosensors. These #microlasers can detect materials at an unprecedented scale, identifying individual molecules and single atomic ions.
#OpticalPhysics #Biophysics #Biochemistry #MedicalDiagnostics #Photonics #sflorg
https://www.sflorg.com/2026/03/phy03252601.html -
Researchers have developed microscopic glass bead lasers—measuring between 0.1mm and 0.01mm—capable of acting as highly sensitive optical biosensors. These #microlasers can detect materials at an unprecedented scale, identifying individual molecules and single atomic ions.
#OpticalPhysics #Biophysics #Biochemistry #MedicalDiagnostics #Photonics #sflorg
https://www.sflorg.com/2026/03/phy03252601.html