gas-discharge lamp

You can see this phenomenon quite clearly in gas-discharge lamps.

At Philips, he did research on lighting systems, especially gas-discharge lamps.

These colors can be replicated using a gas-discharge lamp containing the same element.

The fluorescent lamp is perhaps the best known gas-discharge lamp.

He had created the first gas-discharge lamp.

This included using high-voltage, high-frequency alternating current to light a wireless gas-discharge lamp.

It also allowed the use of conventional gas-discharge lamp fill materials which removed the need to spin the bulb.

Gas-discharge lamps filled with argon provide blue light.

Hauksbee first demonstrated a gas-discharge lamp in 1705.

This effect later became the basis of the gas-discharge lamp, which led to neon lighting and mercury vapor lamps.

The noble gases glow in distinctive colors when used inside gas-discharge lamps, such as "neon lights".

Due to their greater efficiency, gas-discharge lamps are replacing incandescent lights in many lighting applications.

A sodium-vapor lamp is a gas-discharge lamp that uses sodium in an excited state to produce light.

A neon lamp is an example of a gas-discharge lamp, useful both for illumination and as a voltage regulator.

The colors of gas-discharge lamps vary widely depending on the identity of the gas and the construction of the lamp.

A gas-discharge lamp is capable of exceeding the spectral power of direct sunlight in the infrared, especially when pulsed.

Historically, photolithography has used ultraviolet light from gas-discharge lamps using mercury, sometimes in combination with noble gases such as xenon.

Gas-discharge lamps are a family of artificial light sources that generate light by sending an electrical discharge through an ionized gas, a plasma.

An example of a negative-resistance device is a gas-discharge lamp, where after lamp ignition, increasing arc current reduces the voltage drop.

Gas-discharge lamps (particularly metal halide and high pressure sodium lamps) were traditionally the first choice for decorative illumination of building exteriors.

Most of the commercialized devices are using Gas-discharge lamp or Electric arc (carbon) to simulate/accelerate the effect of sunlight.

Low pressure sodium lamps, the most efficient gas-discharge lamp type, producing up to 200 lumens per watt, but at the expense of very poor color rendering.

Gas-discharge lamp and high-intensity discharge lamp (HID)

A patent is pending since 2006 for a sulfur lamp with electrodes - in fact, a more traditional gas-discharge lamp where a magnetron is not required.

Gas-discharge lamps have a long life and a high efficiency, but they are more complicated to manufacture, which makes them more expensive to buy than incandescent lamps.