Need to release as a LASER beam in order to ionize a certain substance

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SUMMARY

The discussion centers on calculating the energy required to ionize a substance using a laser beam, specifically addressing the roles of laser frequency and power. It establishes that the energy of photons is determined by the equation E=hf, where 'h' is Planck's constant and 'f' is the frequency in Hz. The absorption rate of the medium is crucial for determining the laser power needed, and understanding the specific absorption rate (SAR) is essential for practical applications. Participants emphasize the importance of studying the medium's properties to answer questions about electron generation and conductivity.

PREREQUISITES
  • Understanding of the equation E=hf in quantum physics
  • Knowledge of laser power and frequency concepts
  • Familiarity with specific absorption rates (SAR) in materials
  • Basic principles of ionization and conductivity in substances
NEXT STEPS
  • Research the specific absorption rates (SAR) for various materials, including water
  • Study the relationship between photon energy and ionization thresholds for different substances
  • Learn about the effects of laser intensity on electron generation in transparent materials
  • Investigate the correlation between material density and energy requirements for ionization
USEFUL FOR

Physics students, laser technology researchers, and professionals in materials science focused on ionization processes and laser applications.

gabrielshier
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Hello,
A few questions which i could not find complete answers online (for a physics noob). I'll try and break them down here:
// Comment: as for a good noob, i know nothing of the real calculation. //

How do i calculate the amount of energy i will need to release as a LASER beam in order to ionize a certain substance ( assuming it is transparent and LASER can go through it) ?

Does the LASER frequency (Hz) has any meaning in this case or just the power (W)?

Given a certain frequency X and a certain power Y, how many free electrons / ions will it create for a certain substance?

How many free electrons / ions do you need to have in a certain volume in order for it to be conductive?

And have many more but will be waiting for the answers to those so maybe i can conclude some of the answers for the following questions.

Thanks,
Gab
 
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Hi Gab

A transparent medium through which laser can propagate will have an absorption rate (no matter how small it is). This will tell you the energy absorbed by the medium when laser passes through it. (Just as we have Specific Absorption Rate (SAR) in case of microwaves). You can use it to determine the laser power required.

Laser frequency determines the energy the of the photons as per the equation (E=hf) where f is the frequency. You will have to study the effect of radiation of particular frequency on the medium through which laser passes. Power refers to the intensity of the Laser Beam.

You will have to study about the medium to answer the last 2 questions.

Everybody: please make corrections to the above if required.
 


Hey Bejoynp,
Thanks for the quick answer.
Well, i thought it must have an absorption rate since it is a matter and the photons do collide with some atoms over there otherwise it won't be a matter but just a void.

Tried looking at google but couldn't find a table with SARs for that. Do you have this kind of thing anywhere?

In
Laser frequency determines the energy the of the photons as per the equation (E=hf) where f is the frequency.
what does 'h' means? Assuming 'f' is the [Hz] frequency and 'E' is the [N] energy (correct me if I'm wrong).

Let's take for example total clear water as a substance. Just H2O. Ignore reflection and breaking. How do i find the water's SAR (which should be relatively height to the density)? And if so, what is the formula to understand the correlation between the density of the matter and the amount of energy to the laser beam to ionize it?

Thanks,
 

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