Convert centimeter-candle [cm*c] to watt/sq. cm (at 555 nm) Online | Free lllumination Converter

A Historical Unit of Illuminance

The centimeter-candle (cm·c) is an older, non-SI unit of illuminance that measures the luminous flux falling on a surface area of one square centimeter. It is defined as the illuminance produced at a distance of one centimeter from a uniform point source of one candlepower (now replaced by the candela).

Since the centimeter-candle measures light intensity over a very small area, it represents a much finer scale compared to more common units like the foot-candle or lux. One centimeter-candle is equivalent to 10,000 lux because one square meter contains 10,000 square centimeters.

Historically, the centimeter-candle was used in photometry and lighting sciences before international standardization led to the widespread adoption of the lux as the preferred illuminance unit. Its usage today is rare and mostly of historical interest, but it remains useful for understanding older lighting data and certain precise scientific contexts where small-area measurements matter.

Understanding centimeter-candle helps bridge the gap between historical and modern units of light measurement and offers insight into the evolution of photometric standards.

Measuring Light Intensity

Watt per square centimeter (W/cm²) is a unit that measures irradiance, the power of electromagnetic radiation received per unit area. When specified at 555 nanometers (nm), it refers to the intensity of light at the wavelength where the human eye is most sensitive—green light in the visible spectrum.

The 555 nm wavelength is significant because the eye’s photopic (daylight) vision peaks here, making it a standard reference for measuring visible light power. Measuring irradiance in W/cm² at this wavelength is essential in fields like optometry, lighting design, and vision science, where understanding how much light reaches the eye or a surface is critical.

This unit is used to evaluate the brightness of light sources, safety limits for exposure, and the efficiency of lighting devices. For example, in ophthalmology, it helps assess potential retinal exposure during laser treatments or diagnostic procedures to avoid damage.

In practical applications, light intensity at 555 nm measured in W/cm² helps engineers design lighting systems that are both effective and safe, ensuring optimal visibility and comfort.