![]() ![]() The spectra were taken from the measurements of Palmer & Engleman (1983), Engleman, Hinkle, & Wallace (2003), Kerber et al. The spectra were measured using Fourier transform spectrometers at the National Institute of Standards and Technology (NIST) and Kitt Peak National Observatory (KPNO). HCLs are available in a variety of sizes and configurations to fit various AAS instruments.This atlas presents observations of the spectra of Th-Ar hollow cathode lamps at currents ranging from 20 mA to 320 mA. They provide the monochromatic light source needed to excite the atoms in the sample, which allows for accurate analysis of trace elements. Hollow Cathode Lamps are a critical component of Atomic Absorption Spectroscopy (AAS). The light absorbed by the atoms is measured, and the concentration of the element in the sample is determined. ![]() The sample is atomized, and the resulting atoms are excited using the radiation produced by the HCL. AAS is a technique used to measure the concentration of elements in a sample by measuring the absorption of specific wavelengths of light. Hollow Cathode Lamps are commonly used in Atomic Absorption Spectroscopy (AAS) for the analysis of trace elements in a sample. Hollow Cathode Lamps Used in Atomic Absorption These lamps also have a long lifespan, with a single lamp often lasting for thousands of hours of use, making them cost-effective and efficient. They are widely used in various industries, including pharmaceuticals, food and beverage, environmental monitoring, and research laboratories, where accurate analysis is crucial. They provide a stable and reproducible light source that is essential for the measurement of trace elements in samples. Hollow Cathode Lamps are of great importance in the field of analytical chemistry. As the excited atoms relax back to their ground state, they emit photons of specific wavelengths, which can be detected and used for analysis. ![]() When an electrical discharge is created within the lamp, the noble gas atoms (usually argon) collide with the metal atoms in the cathode, causing them to become excited. The cathode is typically made of the metal of interest, such as boron, and is placed in the center of the lamp. How does a Hollow Cathode Lamp produce the needed radiation?Ī Hollow Cathode Lamp produces the needed radiation by exciting the cathode metal, which emits photons at specific wavelengths. By measuring the amount of radiation absorbed by the sample, the concentration of the element can be determined. This process is known as resonance absorption, where the energy of the emitted photons matches the energy required to excite the atoms in the sample. The plasma then excites the cathode, causing the emission of photons of specific wavelengths. When a voltage is applied to the electrodes, it ionizes the gas, producing a plasma. When the lamp is energized by an external power source, the gas inside the lamp becomes ionized, creating a plasma that emits radiation at specific wavelengths corresponding to the metal in the cathode.Ī Hollow Cathode Lamp works by creating a plasma inside the lamp through the use of electrical energy. It is a type of electrodeless discharge lamp consisting of a cylindrical cathode made of a specific metal, such as boron, and a hollow anode, usually made of a noble gas like argon. In chemistry, a hollow cathode lamp is a low-pressure, gas-discharge lamp used as an excitation source in atomic absorption spectroscopy (AAS). What is a Hollow Cathode Lamp in Chemistry? These lamps are widely used in various industries, including pharmaceuticals, food and beverage, environmental monitoring, and research laboratories. They produce a sharp, intense, and monochromatic light source, which is crucial for the accurate measurement of trace elements in a sample. Hollow cathode lamps (HCLs) are specialized lamps used in analytical chemistry to generate the required radiation for atomic absorption spectroscopy (AAS). ![]()
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