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Nanogray [nGy]: Measuring Extremely Low Radiation Doses

The nanogray (nGy) is a unit of absorbed radiation dose equal to 10⁻⁹ grays (Gy). Since the gray (Gy) is the SI unit that measures the amount of ionizing radiation absorbed by a substance (typically per kilogram), one nanogray represents one-billionth of a gray. This tiny unit is used in situations where radiation doses are extremely low, such as background environmental radiation, space research, or ultra-sensitive radiation detection studies. For example, scientists may use nanograys to measure the small amounts of cosmic radiation received by satellites or astronauts over long periods, or to study natural background radiation in very low-radiation areas. Although it is too small to be relevant for most medical or industrial applications—where doses are typically measured in milligrays (mGy) or grays (Gy)—the nanogray is valuable in research that focuses on long-term, low-level exposure and its possible biological effects. It allows for precise tracking and modeling of minimal energy deposits in matter. The use of the nanogray highlights the importance of accurate measurement at even the smallest scales when studying radiation’s impact on the environment, health, or sensitive equipment.

Femtogray [fGy]: A Tiny Unit of Radiation Dose

The femtogray (fGy) is a unit of absorbed radiation dose equal to 10⁻¹⁵ grays (Gy). The gray (Gy) is the standard SI unit used to measure the amount of ionizing radiation energy absorbed per kilogram of matter. One femtogray, therefore, represents a quadrillionth (0.000000000000001) of a gray. This unit is extremely small and is primarily used in theoretical research, nanodosimetry, or highly sensitive radiation studies where even the smallest levels of energy absorption can have measurable effects on microscopic or molecular systems. While real-world applications like medical imaging or radiation therapy use much larger units such as milligray (mGy) or gray (Gy), the femtogray can help researchers simulate or analyze interactions of radiation with DNA, proteins, or other cellular components. Although it is impractical for most everyday uses due to its tiny scale, the femtogray plays a valuable role in scientific fields requiring ultra-precise radiation dose measurements. It demonstrates how finely scientists can scale radiation measurements to better understand the effects of energy on matter at the smallest biological or atomic levels.