- LED/OLED/AMOLED/Super AMOLED
- LCD (e.g. TFT)
- Plasma
- DLP
- SED
- New CRT’s
- Any others
Assuming ambient light, settings, distance-to-size ratio e.t.c. are the same; rank the types of monitors generally for health and eyes (combined).
By ‘health’ I mean which is the least unhealthy for the brain (https://www.bustle.com/articles/117838-5-things-too-much-screen-time-does-to-your-body) and skin (https://www.theguardian.com/fashion...re-from-your-computer-really-ageing-your-skin). By ‘eyes’ I meant which is the least damaging to eyes.
An example of what I mean by unhealthy light is blue light. Studies have been done with blue light and monkeys (which obviously have over 90% the same DNA sequence and respond very similarly).
A question could be: Assuming all else is constant (and if different types of monitors generally emit different amounts of blue light); how much blue light do these types of monitors generally emit?
I am looking for the health and eye damage of types of monitors to buy one of them.
- LCD (e.g. TFT)
- Plasma
- DLP
- SED
- New CRT’s
- Any others
Assuming ambient light, settings, distance-to-size ratio e.t.c. are the same; rank the types of monitors generally for health and eyes (combined).
By ‘health’ I mean which is the least unhealthy for the brain (https://www.bustle.com/articles/117838-5-things-too-much-screen-time-does-to-your-body) and skin (https://www.theguardian.com/fashion...re-from-your-computer-really-ageing-your-skin). By ‘eyes’ I meant which is the least damaging to eyes.
An example of what I mean by unhealthy light is blue light. Studies have been done with blue light and monkeys (which obviously have over 90% the same DNA sequence and respond very similarly).
A question could be: Assuming all else is constant (and if different types of monitors generally emit different amounts of blue light); how much blue light do these types of monitors generally emit?
I am looking for the health and eye damage of types of monitors to buy one of them.