Electron Gun: Difference between revisions
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The use of electron gun technology has been commercially used since the late 1940s in [https://en.wikipedia.org/wiki/Cathode-ray_tube cathode ray tube] (CRT) for an earlier iteration of television sets and computer monitors. <br /> | The use of electron gun technology has been commercially used since the late 1940s in [https://en.wikipedia.org/wiki/Cathode-ray_tube cathode ray tube] (CRT) for an earlier iteration of television sets and computer monitors. <br /> | ||
The electron gun consists of a [https://en.wikipedia.org/wiki/Cathode cathode] (filament) at its base that is heated to the point of [https://en.wikipedia.org/wiki/Thermionic_emission thermionic emission] via [https://en.wikipedia.org/wiki/Joule_heating joule heating]. Electrons emitted from the surface of the filament then accelerate to the [https://en.wikipedia.org/wiki/Anode#:~:text=An%20anode%20is%20an%20electrode,into%20a%20polarized%20electrical%20device.&text=In%20both%20a%20galvanic%20cell,plate%20having%20excess%20positive%20charge anode] under a potential difference between the two. As the collimated spread of electron passes through the anode, the beam of electron is then focused through a series of cylindrical apertures which manipulates the beam using an electric field without changing the energy of the beam known as an [https://en.wikipedia.org/wiki/Einzel_lens Enzil lens]. The beam eventually passes through two sets of deflection parallel plates in the Y-Z direction before it is detected with either a phosphorous screen (illumination as the electron impinges on the screen) or measured with a [https://en.wikipedia.org/wiki/Faraday_cup#:~:text=A%20Faraday%20cup%20is%20a,first%20theorized%20ions%20around%201830 Faraday cup]. | The electron gun consists of a [https://en.wikipedia.org/wiki/Cathode cathode] (filament) at its base that is heated to the point of [https://en.wikipedia.org/wiki/Thermionic_emission thermionic emission] via [https://en.wikipedia.org/wiki/Joule_heating joule heating]. Electrons emitted from the surface of the filament then accelerate to the [https://en.wikipedia.org/wiki/Anode#:~:text=An%20anode%20is%20an%20electrode,into%20a%20polarized%20electrical%20device.&text=In%20both%20a%20galvanic%20cell,plate%20having%20excess%20positive%20charge anode] under a potential difference between the two. As the collimated spread of electron passes through the anode, the beam of electron is then focused through a series of cylindrical apertures which manipulates the beam using an electric field without changing the energy of the beam known as an [https://en.wikipedia.org/wiki/Einzel_lens Enzil lens]. The beam eventually passes through two sets of deflection parallel plates in the Y-Z direction before it is detected with either a [https://en.wikipedia.org/wiki/Phosphor phosphorous] screen (illumination as the electron impinges on the screen) or measured with a [https://en.wikipedia.org/wiki/Faraday_cup#:~:text=A%20Faraday%20cup%20is%20a,first%20theorized%20ions%20around%201830 Faraday cup]. | ||
==Idea== | ==Idea== |
Revision as of 20:04, 2 February 2022
The use of electron gun technology has been commercially used since the late 1940s in cathode ray tube (CRT) for an earlier iteration of television sets and computer monitors.
The electron gun consists of a cathode (filament) at its base that is heated to the point of thermionic emission via joule heating. Electrons emitted from the surface of the filament then accelerate to the anode under a potential difference between the two. As the collimated spread of electron passes through the anode, the beam of electron is then focused through a series of cylindrical apertures which manipulates the beam using an electric field without changing the energy of the beam known as an Enzil lens. The beam eventually passes through two sets of deflection parallel plates in the Y-Z direction before it is detected with either a phosphorous screen (illumination as the electron impinges on the screen) or measured with a Faraday cup.
Idea
There are two parts to this project. The first would be to create the electron source which seems to be done with the use of a Lenard/Crookes tube [1]. Secondly, we would want to focus this electron beam into a spot with the use of a homemade magnetic lens (probably a solenoid of some form). We could perhaps perform a measurement of the focal length with respect to the magnetic field strength of the lens.
Team Members
Irvin Lim
Aliki Sofia Rotelli
Tan Chuan Jie
Lai Tian Hao
Equipments & Components
High Vacuum (HV) Components
- Roughing Pump
- Turbo-Molecular Pump
- KF-25 Stainless Steel vacuum bellow (1 meter)
- CF-40 Stainless Steel Tee
- CF-40 Stainless Steel Cross
- CF-40 Stainless Steel Viewport
- CF-40 Stainless Steel High-voltage Dual Port Feedthroughs (x2)
- CF-40 Stainless Steel Multi-Pin Feedthrough, Double-Ended
- CF-40 to KF-25 Stainless Steel Flange Adapter
- CF-40 Straight Connector (x2)
Electrical Components
- High Voltage Power Supply Unit (PSU) (up to 5kV)
- Current Controlled PSU
Beam Focusing Components
- Enzil Lens
- Pair parallel plates (x2)
Measurement Components
- RBD's 9103 USB Picoammeter, (Alternative: Multimeter)
- High Vacuum Digital Gauge, with range ~ mbars
- Thermocouple
Other Components
- Filament (Possible Choice)
- Tungsten (W)
- Lanthanum Hexaboride(LaB6)
- Cerium Hexaboride(CeB6)
- Phoshors
- Zinc sulfide(ZnS) (Copper/Silver Activated)
- CF-40 Copper Gaskets