Absolute temperature measurement in a laser-heated diamond anvil cell

Strategy and Enhanced Temperature Determination in a Laser Heated Diamond Anvil Cell

New Developments On Laser Heated Diamond Anvil Cell

New developments on laser heated diamond anvil cell are reported by introducing a system installed at the Advanced Photon Source (APS). With the system, a laser heating spot of 20 40 μm in diameter can be generated to temperatures over 3000 K for samples in diamond anvil cell; and the temperature gradients in the laser heated volume are less than 100 K. The system is based on the double sided l...

In situ Raman spectroscopy with laser - heated diamond anvil cells

We have built a micro-optical spectroscopy system coupled with a Nd:YLF laser heating system for performing high pressure–temperature in situ Raman measurements in diamond anvil cells (DAC). A variety of materials can be investigated, providing information about structural and dynamical properties of condensed matter under extreme conditions. We report on a method for laser heating transparent ...

In situ high pressure-temperature Raman spectroscopy technique with laser-heated diamond anvil cells

We describe an in situ high pressure-temperature Raman technique for studying materials in laser-heated diamond anvil cells using a Nd:YLF laser s1053 nmd as the heating source and an ion laser as the Raman exciting source. Here we introduce the method of laser heating transparent samples using a metallic foil (Pt,Re, or W) as the laser absorber (internal heating furnace) in a diamond cell. The...

Laser-Heated Diamond Anvil Cell Technique: Double-Sided Heating with Multimode Nd:YAG Laser

A new laser heating system has been set up to minimize the sample temperature gradients both radially and axially in a diamond anvil cell. A multimode Nd:YAG laser with a relatively flat top of intensity profile allows us to reduce the radial temperature gradient; the axial temperature gradient is minimized by heating samples at both sides. Three dimensional uniform temperatures of 1200 4000 K ...