Lowest Light Intensity Stimulating Human Eye - Wavelengths

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Discussion Overview

The discussion revolves around the lowest light intensity that can stimulate the human eye, focusing on the wavelength range and the physiological mechanisms involved in light perception. It touches on both theoretical and experimental aspects of visual sensitivity and adaptation.

Discussion Character

  • Exploratory
  • Technical explanation
  • Conceptual clarification
  • Debate/contested

Main Points Raised

  • Some participants propose that the eye's sensitivity varies significantly among individuals and under different conditions, making it difficult to establish a precise measure of light intensity required for stimulation.
  • One participant mentions that the human eye can detect single photon events through the rod system, although this does not lead to image formation.
  • Another contribution states that the minimum number of photons required to trigger a conscious response in the brain is estimated to be between 5 to 9 photons within a 100 ms period.
  • Discussion includes the dynamic range of the eye, noting that the retina can resolve a contrast ratio of about 100:1 at any moment, with full adaptation potentially reaching up to 1,000,000:1 over time.
  • Participants note that the eye's maximum sensitivity is typically around 515 nm to 555 nm, particularly in the green region of the spectrum, but this can vary based on individual factors.

Areas of Agreement / Disagreement

Participants generally agree on the sensitivity of the eye to green light and the concept of detecting single photons, but there is no consensus on the exact intensity levels or the implications of these findings. Multiple competing views on the specifics of light perception and adaptation remain present.

Contextual Notes

Limitations include variations in individual sensitivity, the influence of external factors such as time of day and diet, and the complexity of the adaptation process, which may not be fully understood or agreed upon.

Who May Find This Useful

This discussion may be of interest to those studying human physiology, optics, or anyone curious about the mechanisms of vision and light perception.

damitr
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What is the lowest intensity of light that generates any stimulus in the human eye? In what wave length range?
 
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The eye is most sensitive to green light, at approximately 515 nm. The actual sensitivity varies enormously from person to person, during the time of day, and with diet. It's difficult to pin down a single, specific number for the eye's sensitivity.

- Warren
 
damitr said:
What is the lowest intensity of light that generates any stimulus in the human eye? In what wave length range?
IIRC you can actualy see single photon events with the eye rod system.
Can't get any lower than that.
Not as images but simply as light flashes in the dark.
Don't know the frequency range of the rod system.

The eye cone system responds to 3 wavelenghts.
Although I've heard that some people have two different color red receptors, which would make 4.
The cone system requires a lot of light to operate.
 
Lowest intensity to obtain a stimulus may be measured in photons.

One online reference describes, the minimum amount of light our brain requires to perceive light, is from 5 to 9 photons reaching the retina in a 100ms period.

... neural filters only allow a signal to pass to the brain to trigger a conscious response when at least about five to nine (photons) arrive within less than 100 ms. If we could consciously see single photons we would experience too much visual "noise" in very low light, so this filter is a necessary adaptation...

Another related concept is the dynamic range of our eye.
see ref2. This is useful when viewing say; a deep space object through a telescope and you are trying to resolve this image. Your eyes need time to adapt to the darkness. The rods of your retina, are more sensitive to dim light than the cones.

At any given instant, the retina can resolve a contrast ratio of around 100:1 (about 6 1/2 stops). As soon as your eye moves (saccades) it re-adjusts its exposure both chemically and by adjusting the iris. Initial dark adaptation takes place in approximately four seconds of profound, uninterrupted darkness; full adaptation through adjustments in retinal chemistry (the Purkinje effect) are mostly complete in thirty minutes. Hence, over time, a contrast ratio of about 1,000,000:1 (about 20 stops) can be resolved. The process is nonlinear and multifaceted, so an interruption by light nearly starts the adaptation process over again. Full adaptation is dependent on good blood flow; thus dark adaptation may be hampered by poor circulation, and vasoconstrictors like alcohol or tobacco.

Across the whole visible spectrum, what wavelength are we most sensitive to? I found one reference (ref03) which is in agreement with Warren.
A light-adapted eye typically has its maximum sensitivity at around 555 nm, in the green region of the optical spectrum
 
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