Infrared Technology

What Isaac Newton, Herschel, Planck and Einstein have in common

By
Bram Stelt

YES, infrared technology

In 1665, Sir Isaac Newton became the first to slit sunlight into colors with a prism, thus demonstrating the existence of light as radiated energy of differing wavelengths.
In 1790, another English astronomer/scientist, William Herschel, measured the heat content of each the colors of Newton’s spectrum. Herschel was shocked to discover that his thermometer registered the greatest heat beyond the red – in an area of the spectrum he could not see: a serendipitous result, as lore has it, of his thermometer rolling off the red area of the spectrum. He coined the term INFRARED to describe this heat energy, which was beyond the red. All objects emit infrared energy at temperatures above absolute zero (-273°C,-460°F).

Herschel demonstrated that infrared heat radiation and light are simply two forms of electromagnetic energy. Our eyes see light energy because we are equipped to see the wavelengths of light. We cannot see infrared because the wavelengths are too long for our eyes. An example of a special infrared sensing adaptation from the animal world is the pit viper, which can actually locate warm-blooded animals in the dark with its infrared sensing pit organs below its eyes. An infrared sensor, like Herschel’s thermometer and the viper’s pit organs, is slightly heated when viewing the longer wavelengths of infrared energy and provides quantitative information regarding the source of energy.

At the turn of the twentieth century, the German physicist Max Planck discovered the correct mathematical formulation of the relationship between temperature and infrared radiation, for which he won theNobel Prize, thus paving the way for its use as a method of measuring temperature WITHOUT CONTACT. An unanticipated result of Planck’s discovery was quantum physics, arguably the most important scientific development of this century.

Then of course we have the unforgettable Albert Einstein who confirmed Planck’s Quanta by using the photoelectric effect although Einstein did not really like the result. Recent advances in the technology of infrared temperature measurement have stimulated development of devices that are without doubt, more sensitive than Herschel’s thermometer. Several applications of this technology have made it possible to design devices capable of making fast, accurate, and safe non-invasive measurement.

In the eighties Dr. Frank Pompei started Exergen, a worldwide leader of unique, patented sensor technologies that set the benchmark for non-contact infrared temperature measurement throughout a wide range of medical and industrial applications such as digital printing, automotive, food, agriculture, esthetical etc. He not only invented the world’s first infrared thermocouple, the world’s first pocket sized scanner and non-invasive medical infrared thermometer, he also introduced the Speed BoostEquation. Dr. Pompei has filed over 75 patents and next to being the CEO of Exergen Corp, he is also a professor at MIT.

Bottom line: temperature measurement is of utmost importance in various industries

An accurate determination of temperature, being in control of the right temperature, is an important factor in many industries as follows:

  • Printing: industrial printers, temperature measurement is always high on the list for operational excellence. Thermal management and analysis play a key role in speeding up processes, assuring high quality and avoiding waste. If the temperature measurement information is not correct, then it can affect quality of the final product, as well as affect costs.
  • Food and Beverage Processing: Measurement and control of temperature is of utmost importance for both food and beverage processing manufacturers. Temperature is one of the important factors to consider during the bulk production of food items.
  • Plastic Production: Temperature plays an important role in the plastic industry. During the manufacturing stages, for example thermoforming, or injection molding, several temperature ranges needs to be monitored to ensure a high product quality.
  • Printing: industrial printers, temperature measurement is always high on the list for operational excellence. Thermal management and analysis play a key role in speeding up processes, assuring high quality and avoiding waste. If the temperature measurement information is not correct, then it can affect quality of the final product, as well as affect costs.
  • Medical: controlling the right temperature can be a matter of life and death. Not only think of contamination issues BUT also knowing the EXACT temperature is essential. Non contact infrared sensor play a crucial role in this process.
  • Various other industries like sewage, infrastructure, agriculture, automotive.