Ultrafast gated light detector

US 4,659,921 A
Filed: 03/01/1984
Issued: 04/21/1987
Est. Priority Date: 03/01/1984
Status: Expired due to Fees

First Claim

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1. A gated light detector comprising a housing having therein:

a. a photocathode for receiving a light signal and producing emission of electrons in proportion to the intensity of the light signal,b. an accelerating mesh for accelerating the electrons emitted by the photocathode into a deflection field,c. sweeping electronic means for sweeping the electrons in the deflection field over a defined angular distance at a defined rate,d. a first microchannel plate for performing electron multiplication on at least some of the swept electrons,e. electron multiplication means comprising a dynode chain for performing electron multipication on at least some of the electrons emitted from said first microchannel plate,f. variable aperture means for limiting the electrons passed from the first microchannel plate to the electron multiplication means, andg. anode means for receiving electrons from the dynode chain and producing an analog electrical signal output.

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Abstract

A light detector which can be gated on and off over an ultrashort time window, such as in picoseconds or femtoseconds, is disclosed. The light detector includes, in one embodiment, an input slit for receiving a light signal, relay optics, a sweep generator and a tubular housing, the tubular housing having therein a photocathode, an accelerating mesh, a pair of sweeping electrodes, a microchannel plate, a variable aperture and a dynode chain. Light received at the input slit is imaged by the relay optics onto the photocathode. Electrons emitted by the photocathode are conducted by the accelerating mesh to the sweeping electrodes where they are swept transversely across the tubular housing at a rate defined by the sweep generator over an angular distance defined by the sweeping electrodes, in a similar manner as in a streak camera. Swept electrons strike the microchannel plate where electron multiplication is accomplished. Exiting electrons which pass through the variable aperture and which strike the first dynode (cathode) in the dynode chain are further multiplied and outputted from the last dynode anode in the dynode chain as an analog electrical signal, the analog electrical signal corresponding to the intensity of the light signal during the time window over which swept electrons are picked up by the first dynode. In another embodiment of the invention all of the dynodes in the chain except for the last dynode are replaced by a second microchannel plate.

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15 Claims

1. A gated light detector comprising a housing having therein:
- a. a photocathode for receiving a light signal and producing emission of electrons in proportion to the intensity of the light signal,b. an accelerating mesh for accelerating the electrons emitted by the photocathode into a deflection field,c. sweeping electronic means for sweeping the electrons in the deflection field over a defined angular distance at a defined rate,d. a first microchannel plate for performing electron multiplication on at least some of the swept electrons,e. electron multiplication means comprising a dynode chain for performing electron multipication on at least some of the electrons emitted from said first microchannel plate,f. variable aperture means for limiting the electrons passed from the first microchannel plate to the electron multiplication means, andg. anode means for receiving electrons from the dynode chain and producing an analog electrical signal output.

2. A gated light detector comprising a housing having therein:
- a. a photocathode for receiving a light signal and producing emission of electrons in proportion to the intensity of the light signal,b. an accelerating mesh for accelerating the electrons emitted by the photocathode into a deflection field,c. sweeping electronic means for sweeping the electrons, in the deflection field over a defined angular distance at a defined rate,d. a first microchannel plate for performing electron multiplication on at least some of the swept electrons,e. a second microchannel plate for performing electron multiplication on at least ome of the electrons passed through the first microchannel plate,f. variable aperture means for limiting the electrons passed from the first microchannel plate to the second microchannel plate, andg. anode means for receiving electrons from the second microchannel plate and producing an analog electrical signal output.

3. A gated light detector comprising:
- a. a photocathode for receiving a light signal and producing emission of electrons in proportion to the intensity of the light signal;
  
  b. an accelerating mesh for accelerating the electrons emitted by the photocathode into a deflection field;
  
  c. sweeping electronic means for sweeping the electrons in the deflection field over a defined angular distance at a defined rate;
  
  d. electron multiplication means for receiving the electrons swept over at least a portion fo the defined angular distance, performing electron multiplication thereon and producing an analog electric signal output corresponding to the intensity of the light incident on the photochathode over a time window corresponding to the time during which the electrons are received by the electron multiplication means;
  
  e. said time window being dependent on the sweep rate of the sweeping electronic means and the size of the electron multiplication means relative to the defined angular distance;
  
  f. a variable aperture disposed behind and spearate from said sweeping electronic means and in front of said electron multiplication means for limiting the angular distance over which electrons swept by the sweeping electronic means are received by the electron multiplication means so as to further reduce the time window;
  
  g. said sweeping electronic means comprising a pair of sweeping electrodes and a sweep generator, said sweep generator being activated by a trigger signal;
  
  h. said electron multiplication means comprising a microchannel plate and an electron collecting anode; and
  
  i. a second microchannel plate disposed between the variable aperture and the sweeping electrodes.
- View Dependent Claims (4)
- - 4. The gated light detector of claim 3 and wherein the sweep generator and the variable aperture are sized such that the light detector is gated in picoseconds.

5. A gated light detector comprising:
- a. photocathode for receiving a light signal and producing emission of electrons in proportion to the intensity of the light signal;
  
  b. an accelerating mesh for accelerating the electrons emitted by the photocathode into a deflection field;
  
  c. sweeping electronic means for sweeping the electrons in the deflection field over a defined angular distance at a defined rate;
  
  d. electron multiplication means for receiving the electrons swept over at least a portion of the defined angular distance, performing electron multiplication thereon and producing an analog electric signal output corresponding to the intensity of the light incident on the photocathode over a time window corresponding to the time during which the electrons are received by the electron multiplication means;
  
  e. said time window being dependent on the sweep rate of the sweeping electronic means and the size of the electron multiplication means relative to the defined angular distance; and
  
  f. a variable aperture disposed behind and separate from said sweeping electronic means and in front of said electron multiplication means for limiting the angular distance over which electrons swept by the sweeping electronic means are received by the electron multiplication means so as to further reduce the time window.
- View Dependent Claims (6, 7, 8)
- - 6. The gated light detector of claim 5 and wherein the sweeping electronic means comprises a pair of sweeping electrodes and a sweep generator, said sweep generator being activated by a trigger signal.
  - 7. The gated light detector of claim 6 and wherein the electron multiplication means comprises a dynode chain, the dynode chain comprising a first dynode, a plurality of intermediate dynodes and a last dynode, the size of the first dynode defining the portion of the defined angular distance over which the swept electrons are received by said dynode chain.
  - 8. The gated light detector of claim 7 and further including a first microchannel plate for performing electron multiplication of electrons swept by the sweeping electrodes.

9. A gated light detector comprising:
- a. a photocathode for receiving a light signal and producing emission of electrons in proportion to the intensity of the light signal;
  
  b. an accelerating mesh for accelerating the electrons emitted by the photocathode into a deflection field;
  
  c. sweeping electronic means for sweeping the electrons in the deflection field over a defined angular distance at a defined rate;
  
  d. electron multiplication means for receiving the electrons swept over at least a portion of the defined angular distance, performing electron multiplication thereon and producing an analog electric signal output corresponding to the intensity of the light incident on the photocathode over a time window corresponding to the time during which the electrons are received by the electron multiplication means;
  
  e. said time window being dependent on the sweep rate of the sweeping electronic means and the size of the electron multiplication means relative to the defined angular distance;
  
  f. a variable aperture disposed behind and separate from said sweeping electronic means and in front of said electron multiplication means for limiting the angular distance over which electrons swept by the sweeping electronic means are received by the electron multiplication means so as to further reduce the time window;
  
  g. said sweeping electronic means comprising a pair of sweeping electrodes and a sweep generator, said sweep generator being activated by a trigger signal;
  
  h. said electron multiplication means comprising a dynode chain including a first dynode a plurality of intermediate dynodes and a last dynode the size of the first dynode defining the portion of the defined angular distance over which the swept electrons are received by said dynode chain; and
  
  i. a first microchannel plate disposed between the sweeping electrodes and the varible aperture for performing electron multiplication of electrons swept by the sweeping electrodes.
- View Dependent Claims (10, 11, 12, 13, 14, 15)
- - 10. The gated light detector of claim 9 and further including an input slit in front of the photocathode and relay optics for imaging the input slit onto the photocathode.
  - 11. The gated light detector of claim 10 and further including a tubular housing for holding the photocathode, the accelerating mesh, the sweeping electrodes, the first microchannel plate, the variable aperture and the dynode chain.
  - 12. The gated light detector of claim 11 and further including a delay unit for delaying the trigger signal to the sweep generator.
  - 13. The gated light detector of claim 12 and further including means for varying the electron multiplication produced by the microchannel plate.
  - 14. The gated light detector of claim 13 and wherein the sweep generator includes means for varying the sweep rate.
  - 15. The gated light detector of claim 14 and wherein the sweep generator produces sweep rates as fast as 25 picoseconds per millimeter.

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Current Assignee
Robert R. Alfano
Original Assignee
Robert R. Alfano
Inventors
Alfano, Robert R.
Primary Examiner(s)
Westin, Edward P.

Application Number

US06/585,242
Time in Patent Office

1,146 Days
Field of Search

250/213 VT, 250/207, 250/213 R, 313/528, 313/529, 313/530, 313/532, 313/533, 313/537, 313/103 R
US Class Current

250/214.0VT
CPC Class Codes

H01J 43/04 Electron multipliers if for...

Ultrafast gated light detector

First Claim

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Abstract

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15 Claims

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Ultrafast gated light detector

First Claim

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Abstract

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Specification

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