If the energy just comes from the laser pulse, you just have to measure your laser pulses.I wonder how can I calculate the total energy in this plasma?
A laser-induced plasma is a highly ionized gas that is produced when a high-energy laser beam is focused on a material, causing it to rapidly heat up and ionize.
Energy partition refers to the distribution of energy within a laser-induced plasma. This includes the energy absorbed by the material, the energy of the laser beam, and the energy released through various processes such as ionization and recombination.
Understanding energy partition in laser-induced plasma is crucial for optimizing the performance of laser-based technologies, such as laser machining and laser spectroscopy. It also provides valuable insights into the fundamental processes that occur within the plasma.
Energy partition can be measured through various techniques, such as optical emission spectroscopy and time-of-flight mass spectrometry. These methods allow for the detection and analysis of the different energy states and species present in the plasma.
The energy partition in a laser-induced plasma can be influenced by a variety of factors, including the properties of the material being irradiated, the intensity and duration of the laser pulse, and the ambient conditions. Additionally, the type of laser and its wavelength can also play a role in energy partition.