CN203800006U - High energy electron gun - Google Patents
High energy electron gun Download PDFInfo
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- CN203800006U CN203800006U CN201420237937.6U CN201420237937U CN203800006U CN 203800006 U CN203800006 U CN 203800006U CN 201420237937 U CN201420237937 U CN 201420237937U CN 203800006 U CN203800006 U CN 203800006U
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- coil
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Abstract
The utility model discloses a high energy electron gun. The high energy electron gun comprises an electron emission mechanism, a focusing mechanism, a deflection mechanism, a difference vacuum pumping mechanism and an electrode adjusting mechanism. The high energy electron gun employs the difference vacuum pumping mechanism and is further in combination with characteristics of an anode structure, so a space in which a control electrode is located can be maintained in a relatively high vacuum degree. As a small hole of an anode and a small hole of an electron beam outlet are small, so an air conduction rate between two internal space chambers of a vacuum chamber and a control electrode circular pipe is quite small, so difference vacuum pumping is made to be available, service life of a cathode filament is improved, and thereby service life of the whole high energy electron gun is prolonged. The high energy electron gun changes internal magnetic field intensity through changing the current magnitude of a hollow core coil in the focusing mechanism to realize focusing of an electron beam, and thereby a size of an electron beam spot is adjusted. The high energy electron gun adjusts a position of the electron beam spot through changing the current magnitude of an annular coil in the deflection mechanism.
Description
Technical field
The utility model relates to a kind of transmitting, focusing and scans the device of high-energy electron, particularly a kind of high-energy electron rifle.
Background technology
The atom of the surface of solids due to the arrangement that has lost body atom periodically, can show a series of different physics and chemistry character and receive people's concern, thereby form an important branch-Surface Science in Condensed Matter Physics field.Surface Science plays an important role in new material analysis and nanosecond science and technology, and the arrangement mode of surface atom and motion state are the main contents of Surface Science.Typical surface analysis instrument has electron microscope (TEM), Auger electron spectrometer (AES), high electron energy diffractometer (RHEED) etc., and the core of these instruments is all electron gun (E-gun).The essential structure of electron gun is negative electrode, anode and the control utmost point three parts at present, although realized the object of electron emission, but simple in structure, electron energy is low and there is no focusing and the deflection mechanism of electron beam, is difficult to realize the adjustment of electron beam spot size and position.In addition, in order to maintain the life-span of electron emission filament, environment for use requires ultra high vacuum, and this has greatly limited the use of electron gun in particular surroundings.Meanwhile, conditional electronic rifle can not meet the requirement of high-temperature baking with material, this has also limited being used in conjunction with of electron gun and vacuum chamber or other vacuum equipment.
Summary of the invention
The problems referred to above that exist for solving prior art, the utility model will design a kind of long service life, bundle spot size is adjustable, bundle spot position is adjustable, high-temperature baking resistant, high-energy electron rifle simple in structure and easy to use.
To achieve these goals, the technical solution of the utility model is as follows:
A kind of high-energy electron rifle, comprises that mechanism of electron emission, focusing, deflection mechanism, difference vacuumize to maintain mechanism and electrode regulating mechanism;
Described electrode regulating mechanism and mechanism of electron emission are all positioned at difference and vacuumize the inside that maintains mechanism, and the rear end of mechanism of electron emission is followed successively by focusing and deflection mechanism, and described focusing is connected by coil spacer ring with deflection mechanism; Described mechanism of electron emission, focusing, deflection mechanism, difference vacuumizes and maintains mechanism and electrode regulating machine is assembled into entirety, and described entirety is connected with vacuum chamber by adpting flange;
Described mechanism of electron emission comprises the control utmost point that cathode filament, the on-load voltage in negative high voltage is adjustable and the anode in zero potential; Described cathode filament is positioned at the inside of controlling the utmost point, and cathode filament is arranged on tungsten filament electrode, and is connected with external structure by tungsten filament electrode; Anode is positioned at the rear end of controlling polar circle pipe, controls minimum hole vertical with the central axis of anode aperture; After described cathode filament heating power, discharge hot electron;
Very rear end is with the pipe of an aperture in described control, and its relative current potential is lower than cathode filament, play a part to control electron beam divergence degree and change it and cathode filament between Electric Field Distribution, control and penetrate the quantity of electronics;
Described anode is a cylindrical case, in zero potential, and the aperture that its front end center has a supplied for electronic to inject, the potential difference between anode and the cathode filament in negative potential determines the final energy that penetrates electronics;
Described difference vacuumizes and maintains mechanism by regulating bellows, exhaust flange, flange and discharge duct to form, between exhaust flange and discharge duct by being welded to connect, discharge duct with regulate bellows by being welded to connect, between discharge duct and flange by being welded to connect; Described difference vacuumizes and maintains mechanism and be connected with base flange by flange;
The pipe inner space at vacuum chamber inner space and control utmost point place is divided into two parts by described anode, and anode orifice size is very little, this structure coordinates difference to vacuumize to maintain mechanism that difference is taken out is feasible, thereby while making to import compared with hyperbar in vacuum chamber, the inner space of controlling polar circle pipe still can maintain high vacuum;
Described focusing is made up of boundling coil housing, boundling coil axes and hollow coil; Boundling coil housing and boundling coil axes are bolted, and hollow coil is contained in the interior annular gap being made up of boundling coil housing and boundling coil axes; The magnetic direction that focusing hollow core coil produces is parallel with the electron beam direction of motion; By changing the size of hollow core coil current, and then change its inner magnetic field intensity and realize the focusing of electron beam;
Described deflection mechanism is made up of deflection coil cover, coil brace and loop coil; Coil brace is connected with deflection coil cover by bolt, and loop coil is positioned in the annular shell being surrounded by deflection coil cover; The magnetic direction that the loop coil of deflection mechanism produces is vertical with the electron beam direction of motion; By changing the size of loop coil electric current, and then change its inner magnetic field intensity and realize the deflection of electron beam;
Described electrode regulating mechanism is arranged on and controls the front end of the utmost point, and tungsten filament electrode is arranged in the aperture of electrode regulating mechanism, and described electrode regulating mechanism is used for regulating cathode filament and controls the concentricity between the aperture of utmost point rear end;
Described difference vacuumizes the adjusting bellows and the knob that maintain in mechanism and is used for regulating the concentricity between mechanism of electron emission and anode aperture.
The material that the material that mechanism of electron emission described in the utility model, focusing, deflection mechanism, difference vacuumize the nonisulated part that maintains mechanism and electrode regulating mechanism is 304 stainless steels, insulated part is Al
2o
3.
Compared with prior art, the utlity model has following beneficial effect:
1, determined the energy of final ejaculation electronics due to the potential difference between cathode filament of the present utility model and anode, so in the time adding the voltage of tens kilovolts between the two, make the electronics penetrating there is higher energy.
2, maintain mechanism because the utility model has adopted difference to vacuumize, coordinate the feature of anode construction simultaneously, can there is higher vacuum degree in space, retentive control utmost point place.Because the orifice size of anode aperture and electron beam outlet is very little, so the gas on-state rate between two of the inner spaces cavity of vacuum chamber and control polar circle pipe is very little, difference is vacuumized feasible, thereby improve the useful life of cathode filament, and then extended the useful life of whole high-energy electron rifle.
3, the utility model is by changing the size of focusing hollow core coil current, and then changes its inner magnetic field intensity and realize the focusing of electron beam, thereby adjusts the size of electron beam spot.
4, the utility model is by changing the size of loop coil electric current in deflection mechanism, and then changes its inner magnetic field intensity and realize the deflection of electron beam, thereby adjusts the position of electron beam spot.
5, the utility model due to high-energy electron rifle with material be SUS304, so high-temperature baking that can resistance to 220 DEG C.
6,, for the Electron Beam Focusing performance that makes to produce in high-energy electron rifle is better, need to increase the concentricity between each mechanism.Therefore increasing electrode regulating mechanism in the utility model is used for adjusting cathode filament and controlling the concentricity between utmost point front end aperture.
7, there is good focusing in order to realize electron beam, vacuumize the adjusting bellows and the knob that maintain in mechanism and can be used to regulate the concentricity between mechanism of electron emission and collimating aperture therefore increase difference in the utility model.
Brief description of the drawings
12, the total accompanying drawing of the utility model, wherein:
Fig. 1 is overall construction drawing of the present utility model.
Fig. 2 is the center section plan of Fig. 1.
Fig. 3 is schematic diagram of the present utility model.
Fig. 4 is the I place structural representation of Fig. 2.
Fig. 5 is that difference vacuumizes the structural representation that maintains mechanism.
Fig. 6 is the structural representation of electrode regulating mechanism.
Fig. 7 realizes the structural representation that difference vacuumizes.
Fig. 8 is the II place structural representation of Fig. 2.
Fig. 9 is the profile of focusing.
Figure 10 is the focusing principle figure of focusing.
Figure 11 is the deflection principle figure of deflection mechanism.
Figure 12 is the power principle figure of cathode filament, anode and the control utmost point.
In figure: 1, flange outer cover, 2, coil brace, 3, boundling coil housing, 4, exhaust flange, 5, adpting flange, 6, deflection coil cover, 7, pipe A, 8, electrode, 9, base flange, 10, insulating base, 11, high pressure stem, 12, insulator A, 13, pipe B, 14, pressure ring, 15, adapting rod, 16, electrode stationary pipes, 17, tungsten filament seat, 18, spacer ring, 19, semicircle flange, 20, flange A, 21, electron beam outlet, 22, flange B, 23, electrode regulating, 24, tungsten filament electrode, 25, insulator B, 26, control the utmost point, 27, cathode filament, 28, insulating cover, 29, anode, 30, discharge duct, 31, adjust bellows, 32, flange C, 33, flange D, 34, hollow coil, 35, boundling coil axes, 36, coil spacer ring, 37, loop coil.
Embodiment
For making the object of embodiment of the present utility model, technical scheme and advantage are clearer, below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment are known to complete description:
As shown in Fig. 1-9, a kind of high-energy electron rifle, mainly comprises: mechanism of electron emission, difference vacuumize and maintain mechanism, focusing, deflection mechanism and electrode regulating mechanism.
As shown in Figure 2, controlling the utmost point 26 is connected with base flange 9 through spacer ring 18, tungsten filament seat 17, electrode stationary pipes 16, insulator A12, insulating base 10.Wherein, base flange 9 is all bolted with insulator A12 with insulating base 10, insulating base 10.Controlling the utmost point 26 is the pipe of front end with an aperture, and the voltage of controlling on the utmost point 26 imports via electrode 8, high pressure stem 11, electrode stationary pipes 16, tungsten filament seat 17;
As shown in Figure 2, cathode filament 27 is positioned at the inside of controlling polar circle pipe, and cathode filament 27 is connected with outside electrode 8 through tungsten filament electrode 24, electrode regulating 22, adapting rod 15.In cathode filament 27, electric current is adjustable simultaneously, and adjustable range is 0 ∽ 2A.Wherein, tungsten filament electrode 24 is connected in the aperture in electrode regulating 22 through insulator B25, and electrode regulating 22 is contained in the aperture in insulator A12;
As shown in Figure 2, anode 29 is a cylindrical case, the aperture that its front end center has a supplied for electronic to inject.Anode 29 is positioned at the rear end of controlling the utmost point 26, and it is mutually vertical with the central axis of anode aperture to control minimum hole.
As shown in Figure 12, anode 29 is in zero potential, and the current potential of controlling the utmost point 26 is lower than the current potential of cathode filament 27, and both in negative potential.After cathode filament 27 energisings, discharge hot electron; Owing to controlling, the current potential of the utmost point 26 is lower than the current potential of cathode filament 27, thus control the utmost point 26 play a part to control electron beam divergence degree and change it with cathode filament 27 between Electric Field Distribution, thereby control the quantity of ejaculation electronics; Potential difference between anode 29 and the cathode filament in negative potential 27 determines the final energy that penetrates electronics, and current potential can differ tens kilovolts between the two, thereby makes the electronics penetrating have very high energy.
As shown in Figure 5, difference vacuumize maintain structure by discharge duct 30, regulate ripple 31, exhaust flange 4, flange C32 and flange D33 to form.Between them, be connected by welding to together.Together with this structure is bolted with base flange 9 by flange C32.
As can be seen from Figure 12, high-energy electron rifle is connected with vacuum chamber by adpting flange 5, thereby realizes follow-up various work.As shown in Figure 7, anode 29 is by space, vacuum cavity place one and control the space that the utmost point 26 spaces, place two are divided into two sealings, and anode orifice size is very little, it is feasible that this construction features coordinate difference to vacuumize to maintain mechanism that difference is taken out, thereby while making to import compared with hyperbar in vacuum chamber, control space, utmost point place and still can maintain high vacuum, thereby greatly improved the useful life of cathode filament 27, and then extend the life-span of whole high-energy electron rifle.
Difference vacuumizes the adjusting bellows 31 and the knob that maintain in mechanism and can be used to regulate the concentricity between mechanism of electron emission and anode aperture.
The structural representation of described electrode regulating mechanism is shown in Fig. 6, and it is used for adjusting cathode filament 27 and controls the concentricity between the utmost point 26 rear end apertures;
As shown in Figure 8, described focusing is made up of boundling coil housing 3, boundling coil axes 35 and hollow coil 34.Boundling coil housing and boundling coil axes are bolted, and hollow coil 34 is contained in the interior annular gap being made up of boundling coil housing 3 and boundling coil axes 35.As shown in Figure 2, boundling coil axes 35 is vacuumized with difference the flange C33 maintaining in mechanism and is connected by flange B23, pipe A7, flange B20, semicircle flange 19.Wherein, pipe A7 and flange B23, flange B20 are by being welded together, together with flange B20 is bolted with flange C33 with semicircle flange 19, semicircle flange 19.By changing the size of hollow coil 34 electric currents, realize the focusing of electron beam.In the utility model, in order to strengthen magnetic induction, hollow coil 34 is placed in the shell of an interior annular gap of being made by soft magnetic material 304 stainless steels, as shown in Figure 9.The focusing principle figure of this focusing as shown in figure 10.When to the logical stable DC electricity of focusing, its inner magnetic direction forming is parallel with the electron beam direction of motion.If long enough, can think inner is uniform magnetic field.In uniform magnetic field, somewhere A has a branch of charged particle, when the speed V of charged particle and the angle theta of B are when very little, the speed V of each particle is roughly the same, these particles have identical speed, after a gyration period, they converge to A ' point again through different pitch h tracks separately, disperse particle and rely on magnetic fields to converge with the phenomenon of any to be called magnetic focusing.Visible, after charged particle line focus mechanism, realize the focusing of electron beam.
As shown in Figure 8, described deflection mechanism is made up of deflection coil cover 6, coil brace 2 and loop coil 37; Coil brace 2 is connected with deflection coil cover 6 by screw bolt and nut, and loop coil 37 is positioned in the annular shell being surrounded by deflection coil cover 6.This deflection mechanism is connected with focusing by coil spacer ring 36, and its coil spacer ring 36 is all bolted with focusing and deflection mechanism.By changing the size of coil current, and then change its inner magnetic field and realize the deflection of electron beam.Its deflection principle as shown in figure 11.When charged particle passes through magnetic field, under the effect of Lorentz force, can deflect.Be loop coil due to what add in deflection mechanism, the magnetic direction producing is vertical with the electron beam direction of motion.If there is uniform magnetic field in square frame, the direction of magnetic induction density B is outside with vertical paper.If electronics vertically enters magnetic field B with speed V ┴, be subject to the effect of Lorentz force F, in field region, do the uniform circular motion that radius is R.
Obtain F=BeV ┴=mV ┴ 2/R according to Newton's law
So
R=mV┴/Be(1)
If deflection angle theta is less, there is tan θ ≈ d/R=D/L (2)
Wherein d is magnetic field width, and D is amount of deflection, and L magnetic field center is to the distance of sample.
Can be obtained by (1) and (2)
D=edBL/mV┴ (3)
Because the magnetic field in magnetic deflection in the utility model is to have a pair of current-carrying coil to produce, the B size of its magnetic flux density
B=KU
0nI (4)
U
0for the magnetic permeability in vacuum; N is the number of turn in unit coil; I is coil current; K is that coil produces correction factor 0<K≤1 in magnetic field.Bringing formula (4) into (3) obtains
D=edLKU
0nI/mV┴
For given magnetic deflection mechanism and coil, K, n, d, L are constant.Above formula shows, when V ┴ mono-timing, the magnetic deflection amount D of electron beam in magnetic field and the electric current I of coil are directly proportional.
So in deflection mechanism of the present utility model, can be by the size of the electric current I of adjustment coil, accurate adjustment electron beam is to the incident angle of sample.
The above; it is only preferably embodiment of the utility model; but protection range of the present utility model is not limited to this; any be familiar with those skilled in the art the utility model disclose technical scope in; be equal to replacement or changed according to the technical solution of the utility model and inventive concept thereof, within all should being encompassed in protection range of the present utility model.
Claims (2)
1. a high-energy electron rifle, is characterized in that: comprising that mechanism of electron emission, focusing, deflection mechanism, difference vacuumize maintains mechanism and electrode regulating mechanism;
Described electrode regulating mechanism and mechanism of electron emission are all positioned at difference and vacuumize the inside that maintains mechanism, the rear end of mechanism of electron emission is followed successively by focusing and deflection mechanism, and described focusing is connected by coil spacer ring (36) with deflection mechanism; Described mechanism of electron emission, focusing, deflection mechanism, difference vacuumizes and maintains mechanism and electrode regulating mechanism is assembled into entirety, and described entirety is connected with vacuum chamber by adpting flange (5);
Described mechanism of electron emission comprises the cathode filament (27) in negative high voltage, the control utmost point (26) and the anode in zero potential (29) that on-load voltage is adjustable; Described cathode filament (27) is positioned at the inside of controlling the utmost point (26), and it is upper that cathode filament (27) is arranged on tungsten filament electrode (24), and is connected with external structure by tungsten filament electrode (24); Anode (29) is positioned at the rear end of controlling the utmost point (26) pipe, controls the utmost point (26) aperture vertical with the central axis of anode (29) aperture; After described cathode filament (27) heating power, discharge hot electron;
The described control utmost point (26) is the pipe of rear end with an aperture, its relative current potential is lower than cathode filament (27), play a part to control electron beam divergence degree and change its with cathode filament (27) between Electric Field Distribution, the quantity of control ejaculation electronics;
Described anode (29) is a cylindrical case, in zero potential, the aperture that its front end center has a supplied for electronic to inject, the potential difference between anode (29) and the cathode filament in negative potential (27) determines the final energy that penetrates electronics;
Described difference vacuumizes and maintains mechanism by regulating bellows (31), exhaust flange (4), flange and discharge duct (30) to form, between exhaust flange (4) and discharge duct (30) by being welded to connect, discharge duct (30) with regulate bellows (31) by being welded to connect, between discharge duct (30) and flange by being welded to connect; Described difference vacuumizes and maintains mechanism and be connected with base flange (9) by flange;
The pipe inner space at vacuum chamber inner space and the control utmost point (26) place is divided into two parts by described anode (29), and anode (29) orifice size is very little, this structure coordinates difference to vacuumize to maintain mechanism that difference is taken out is feasible, thereby while making to import compared with hyperbar in vacuum chamber, the inner space of controlling the utmost point (26) pipe place still can maintain high vacuum;
Described focusing is made up of boundling coil housing (3), boundling coil axes (35) and hollow coil (34); Boundling coil housing (3) and boundling coil axes (35) are bolted, and hollow coil (34) is contained in the interior annular gap being made up of boundling coil housing (3) and boundling coil axes (35); The magnetic direction that focusing hollow core coil (34) produces is parallel with the electron beam direction of motion; By changing the size of hollow coil (34) electric current, and then change its inner magnetic field intensity and realize the focusing of electron beam;
Described deflection mechanism is made up of deflection coil cover (6), coil brace and loop coil (37); Coil brace is connected with deflection coil cover (6) by bolt, and loop coil (37) is positioned in the annular shell being surrounded by deflection coil cover (6); The magnetic direction that the loop coil (37) of deflection mechanism produces is vertical with the electron beam direction of motion; By changing the size of loop coil (37) electric current, and then change its inner magnetic field intensity and realize the deflection of electron beam;
Described electrode regulating mechanism is arranged on the front end of controlling the utmost point (26), and tungsten filament electrode (24) is arranged in the aperture of electrode regulating mechanism, described electrode regulating mechanism is used for adjusting cathode filament (27) and controls the concentricity between the aperture of the utmost point (26) rear end;
Described difference vacuumizes the adjusting bellows (31) and the knob that maintain in mechanism and is used for regulating the concentricity between mechanism of electron emission and anode (29) aperture.
2. a kind of high-energy electron rifle according to claim 1, it is characterized in that: the material that described mechanism of electron emission, focusing, deflection mechanism, difference vacuumizes the nonisulated part that maintains mechanism and electrode regulating mechanism is 304 stainless steels, the material of insulated part is Al
2o
3.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420237937.6U CN203800006U (en) | 2014-03-14 | 2014-05-09 | High energy electron gun |
Applications Claiming Priority (3)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201410096570.5 | 2014-03-14 | ||
| CN201410096570.5A CN103824741A (en) | 2014-03-14 | 2014-03-14 | High-energy electronic gun |
| CN201420237937.6U CN203800006U (en) | 2014-03-14 | 2014-05-09 | High energy electron gun |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN203800006U true CN203800006U (en) | 2014-08-27 |
Family
ID=50759741
Family Applications (3)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201410096570.5A Pending CN103824741A (en) | 2014-03-14 | 2014-03-14 | High-energy electronic gun |
| CN201410195904.4A Expired - Fee Related CN103928278B (en) | 2014-03-14 | 2014-05-09 | A kind of high-energy electron rifle |
| CN201420237937.6U Expired - Fee Related CN203800006U (en) | 2014-03-14 | 2014-05-09 | High energy electron gun |
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| Application Number | Title | Priority Date | Filing Date |
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| CN201410096570.5A Pending CN103824741A (en) | 2014-03-14 | 2014-03-14 | High-energy electronic gun |
| CN201410195904.4A Expired - Fee Related CN103928278B (en) | 2014-03-14 | 2014-05-09 | A kind of high-energy electron rifle |
Country Status (1)
| Country | Link |
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| CN (3) | CN103824741A (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103928278A (en) * | 2014-03-14 | 2014-07-16 | 大连交通大学 | High energy electronic gun |
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| CN105755421B (en) * | 2016-04-20 | 2018-03-06 | 北京科技大学 | A kind of direct current argon arc plasma powder spray gun and preparation method |
| CN106298410B (en) * | 2016-08-31 | 2018-01-09 | 兰州空间技术物理研究所 | A kind of portable handheld electronic rifle for space-orbit operation |
| CN109211101B (en) * | 2018-10-11 | 2023-09-22 | 中国科学院电工研究所 | Electron beam centering detection tube and electron beam centering detection device |
| KR102120946B1 (en) * | 2018-11-16 | 2020-06-10 | (주)엠크래프츠 | Electron microscope with automatic beam alignment |
| CN110379690B (en) * | 2019-06-27 | 2020-09-25 | 电子科技大学 | Cold cathode electron gun using radio frequency excitation field to emit electron beam |
| CN110838427B (en) * | 2019-11-20 | 2022-04-29 | 中国航空制造技术研究院 | Electronic gun device for fuse wire additive manufacturing |
| CN114235868B (en) * | 2020-09-09 | 2023-06-20 | 中国科学院沈阳科学仪器股份有限公司 | Differential high-energy electron diffraction system and method with automatic focusing function |
| CN113793790A (en) * | 2021-08-30 | 2021-12-14 | 无锡日联科技股份有限公司 | Open type micro-focus X-ray source and control method thereof |
| CN117790260B (en) * | 2024-02-23 | 2024-04-30 | 成都菲奥姆光学有限公司 | Device for adjusting electromagnetic variable to protect discharge lamp filament |
Family Cites Families (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US4992698A (en) * | 1989-05-10 | 1991-02-12 | Rca Licensing Corp. | Color picture tube including an electron gun with an electrode having an optimized attachment means |
| US5241182A (en) * | 1991-06-18 | 1993-08-31 | Fei Company | Precision electrostatic lens system and method of manufacture |
| JP2004022235A (en) * | 2002-06-13 | 2004-01-22 | Ebara Corp | Electron gun and method for manufacturing semiconductor device using electron beam apparatus having electron gun |
| WO2004013661A2 (en) * | 2002-08-02 | 2004-02-12 | E.A. Fischione Instruments, Inc. | Methods and apparatus for preparing specimens for microscopy |
| CN201348979Y (en) * | 2008-12-03 | 2009-11-18 | 安徽华东光电技术研究所 | Electron gun structure for linear accelerator |
| CN102208308B (en) * | 2010-03-31 | 2013-07-03 | 中国科学院电子学研究所 | Method for frame mounting of non-intercepting gridded electron gun of klystron |
| CN102800545B (en) * | 2012-08-30 | 2015-04-15 | 电子科技大学 | Cathode-adjustable single anode magnetic control electron gun |
| CN103824741A (en) * | 2014-03-14 | 2014-05-28 | 大连交通大学 | High-energy electronic gun |
-
2014
- 2014-03-14 CN CN201410096570.5A patent/CN103824741A/en active Pending
- 2014-05-09 CN CN201410195904.4A patent/CN103928278B/en not_active Expired - Fee Related
- 2014-05-09 CN CN201420237937.6U patent/CN203800006U/en not_active Expired - Fee Related
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103928278A (en) * | 2014-03-14 | 2014-07-16 | 大连交通大学 | High energy electronic gun |
Also Published As
| Publication number | Publication date |
|---|---|
| CN103928278A (en) | 2014-07-16 |
| CN103928278B (en) | 2016-01-20 |
| CN103824741A (en) | 2014-05-28 |
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| Date | Code | Title | Description |
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| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140827 Termination date: 20190509 |