A magnetron tube inside of the microwave produces the waves and a fan circulates them.
UV lasers are good for analyizing top surface layers. It has a penetration depth of only a few nanometers, making it incredibly sensitive, even to very thin layers.
he was co-inventor the 'spin-flip tunable laser'.
If the interior of the oven is stil without rust marks and it is stil in good condition one can replace the magnetron
A magnetron is a high power microwave oscillator, and it is used in microwave ovens and radar transmitters as well as some other applications. The magnetron itself is actually a special kind of vacuum tube - a vacuum diode - that incorporates some unique structural elements and has a permanent magnet included in its construction. This magnet is set up to affect the path of travel of electrons that are in transit from the cathode to the plate. Links are provided to relevant Wikipedia articles.
because pie mode has maximum of its output efficent and is mostly used mode in the case of magnetron
The capacitor in a microwave oven, along with its associated high voltage diode, form what is called a voltage doubler to drive the magnetron.
Markettechinc is an online source for tunable lasers. Another reputable company is Santec. This company also has an online presence where the tunable lasers are sold.
Tunable laser diodes measure the concentration of gases in an area. The advantages of tunable laser diodes is that they are able to detect very low levels of these gases.
Tunable lasers are commonly used for recording transmission data, or absorption information. In some applications, cooling is required, and tunable lasers are good for that use as well.
It outputs high voltage so that the magnetron (which is recieving the 2000v the Microwave transformer produces) can emit microwaves and it will cook the food but if fed lower voltage it is like a lower wattage it will cook slower
The Magnetron tube is quite different from the Klystron tube. The Magnetron tube is can only function as an oscillator only.
All tunable LASERs are LASERS, however not all LASERS are tunable. In a tunable laser the lasing medium, which is typically a gas, dye or crystal, can be altered to produce slightly different frequencies, thus allowing the laser to be 'tuned' or frequency changed where most LASERS produce a very narrow band of radiation frequencies.
A magnetron is a high-power, high frequency vacuum tube. The magnetron is the source of radio-frequency energy in RADAR systems and in the microwave oven in your kitchen, for example.
A magnetron tube inside of the microwave produces the waves and a fan circulates them.
tunable-dye laser
copper