Josef Voldřich scite author profile

Raman spectroscopy is a widely applied analytical technique with numerous applications that is based on inelastic scattering of monochromatic light, which is typically provided by a laser. Irradiation of a sample by a laser beam is always accompanied by an increase in the sample temperature, which may be unwanted or may be beneficial for studying temperature-related effects and determining thermal parameters. This work reports analyses of the temperature field induced by a Gaussian laser to calculate the Raman scattered intensity related to each temperature value of the nonuniform field present on the sample. The effective temperature of the probed field, calculated as an average weighted by the laser intensity, is demonstrated to be about 70% of the maximum temperature irrespective of the absorption coefficient or the laser focus. Finally, using crystalline silicon as a model material, it is shown that this effective value closely approximates the temperature value identified from the thermally related peak shift.

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Use of Cyclic Symmetry Properties in Vibration Analysis of Bladed Disks with Friction Contacts between Blades

Voldřich

Polach

Lazar

et al. 2014

Procedia Engineering

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Shock Induced Damage in Austenitic Stainless Steel

Buchar

Voldřich²,

Rolc³

2004

MSF

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Josef Voldřich

Frictionally excited thermoelastic instability in disc brakes—Transient problem in the full contact regime

Frictionally Excited Thermoelastic Instability and the Suppression of Its Exponential Rise in Disc Brakes

Raman thermometry: Effective temperature of the nonuniform temperature field induced by a Gaussian laser

Use of Cyclic Symmetry Properties in Vibration Analysis of Bladed Disks with Friction Contacts between Blades

Shock Induced Damage in Austenitic Stainless Steel

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