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Precise and Dynamic Temperature Control in High-Resolution Microscopy with VAHEAT

Jaroslav Icha, Daniel Böning, Pierre Türschmann

2022Microscopy Today17 citationsDOIOpen Access PDF

Abstract

Abstract: Temperature is a key parameter in most biological and physical systems. It is, however, an inherent technological challenge to precisely track and control the temperature of small sample volumes when using high- and super-resolution microscopes. Various effects can cause a deviation of the sample temperature from its expected value, specifically in the observed volume or field-of-view. These effects include direct thermal contact of the objective lens and the coverslip via immersion medium, illumination-induced heating, evaporative cooling, or triggered phase transitions. In this paper, we shed light on these phenomena and introduce our newly developed device VAHEAT, which follows a microscopic approach for controlling and measuring the sample temperature. Our system overcomes traditional limitations of temperature sensing and controlling in high-sensitivity microscopy applications, leading to more reproducible experimental results and conquering new experimental parameter ranges.

Topics & Concepts

Temperature controlMicroscopeMicroscopyMaterials scienceLens (geology)Optical microscopeOpticsThermalSample (material)Evaporative coolerTemperature measurementResolution (logic)NanotechnologyBiological systemComputer scienceMechanical engineeringThermodynamicsPhysicsEngineeringArtificial intelligenceComposite materialScanning electron microscopeBiologyAdvanced Fluorescence Microscopy TechniquesHeat shock proteins researchAdvanced Electron Microscopy Techniques and Applications
Precise and Dynamic Temperature Control in High-Resolution Microscopy with VAHEAT | Litcius