Nano Lasers (femtoseconds) or fluid structure and function (PhD in Nano-Microelectronics)

Nano Lasers (femtoseconds) or fluid structure and function (PhD in Nano-Microelectronics)

Researcher  and author: Dr.   (   Afshin Rashid)

Note: A femtosecond nano-laser is called a femtosecond nano-laser when the laser wavelength range is 5 femtoseconds. Note that each femtosecond (fs) is equal to 150 seconds. Some fluid lasers are examples of these lasers.

A nano-laser is a femtosecond  device that emits light waves in the form of very thin parallel beams of a specific wavelength. Gas nano-  lasers   that use the effect of electrons  to produce excited ions, which are the active devices of nano-lasers. The main component of ion nano-lasers are plasma tubes. The flow rate in the tube can be more than 10 nanometers. Gas nano-lasers all share a common pump source, and  gaseous species are either directly excited by contact with electrons or indirectly by contact with other gases. Nano-laser femtoseconds  from the ultraviolet to infrared spectrum cover a wide range of light. However, the spectrum is not constantly covered. Nano-femtosecond laser They emit very narrow spectral lines. The most common are gas nano-lasers (UV to UV).

Among the various types of  femtosecond nano-lasers, carbon dioxide nano-lasers with the highest average power among gas lasers are widely used in various cases due to this wide application of high efficiency. (Nano-laser) is a laser that at the nanoscale  ,  these tiny lasers can be quickly modified and, along with  small  footprints , make them ideal candidates for optical computations  on the chip  . The intense light fields of such a laser also enable the amplifying effect on nonlinear optics  or scattering (Raman) with the augmented surface   ,  thus paving the way for integrated nanophotonic circuits , generally increasing the nanowatter   or Amplification is a  process in which the environment transfers part of its energy to the emitted electromagnetic radiation  ,  resulting in increased optical power. This is the basic principle of all lasers . Quantitatively,  increasing  measurement is the ability of a laser medium  to increase optical power.

Conclusion : 

A femtosecond nano-laser is called a femtosecond nano-laser when the laser wave break time is 5 femtoseconds. Note that each femtosecond (fs) is equal to 150 seconds. Some fluid lasers are examples of these lasers.

Researcher  and author: Dr.   (   Afshin Rashid)

PhD in Nano-Microelectronics