CN204680670U - The back-illuminated type ultraviolet focal-plane detector of integral micro-lens array - Google Patents

Abstract

This patent discloses a kind of back-illuminated type ultraviolet focal-plane detector of integral micro-lens array.Back-illuminated type ultraviolet focal-plane detector is made up of following components: the photosensitive element array chip of ultraviolet, reading circuit, mixing and interconnecting indium post, microlens array.Microlens array adopts the steps such as photoresist photoetching, high-temperature molding, plasma etching to be processed to form on the jewel sheet substrate of the photosensitive element array chip of ultraviolet.The advantage of this patent is: after integral micro-lens array, and the area of the photosensitive unit of ultraviolet can significantly reduce, thus makes the photosensitive unit of ultraviolet have high zero-bias dynamic electric resistor R ₀with little junction capacitance, thus be conducive to reducing the noise of reading circuit and improving the detectivity of ultraviolet detector.

Description

The back-illuminated type ultraviolet focal-plane detector of integral micro-lens array

Technical field

This patent relates to UV photodetector and lenticule, specifically refers to the back-illuminated type ultraviolet focal-plane detector of integral micro-lens array and the preparation method of corresponding microlens array.

Background technology

Ultraviolet detector has been widely used in the fields such as military affairs, environment measuring, industrial production such as missile warning, spilled oil monitoring, corona detection, fingerprint detection.Ultraviolet detector can be roughly divided into two classes: photocathode detector and semiconductor detector.Compared with photocathode detector, semiconductor ultraviolet detection is not only compacter, firmer, and have higher quantum efficiency, driving voltage is lower, and can also obtain better stability in hot environment.Typical ultraviolet solid probe has Si ultraviolet detector, SiC ultraviolet detector and group III-nitride ultraviolet detector.Wherein AlGaN base ultraviolet detector has the advantages such as absorption coefficient is large, cut-off wavelength is sharp keen, fast response time, heterojunction easily realize, response wave band is adjustable.AlGaN base ultraviolet detector can be divided into positive illuminated and back-illuminated detectors two kinds.

Relative to positive irradiating structure, back illumination structure has following advantage: (1) adopts the heterojunction structure of the high component AlGaN Window layer of band, can cutting response wave band effectively, can obtain higher quantum efficiency in response wave band; (2) Window layer is n-AlGaN, and the growth of material is comparatively easy; (3) be suitable for preparing extensive face battle array device, can realize blending together focal plane device on a large scale.

Backing material normally sapphire, SiC and the silicon of AlGaN base ultraviolet detector, the lattice constant of these backing materials and AlGaN and GaN is not mated, so have quite high threading dislocation density in AlGaN and GaN material, quantity is about 10 ⁸~ 10 ¹⁰cm ^-2, the original position defect formed in these dislocations and Material growth process such as Ga room and N room and impurity element such as carbon, hydrogen, oxygen etc. can carry out scattering to charge carrier, thus reduce the internal quantum efficiency of detector.

In order to reduce the quantity of these faults in material, transversal epitaxial growth (LEO) and the technology such as surface passivation, heat treatment have been used in Material growth and device preparation technology, the common ground of these technology is when keeping photosensitive elemental area certain, is reduced the defects count in photosensitive unit by minimizing defect concentration.

Summary of the invention

The object of this patent is the back-illuminated type ultraviolet focal-plane detector providing a kind of integral micro-lens array, improves the detectivity of ultraviolet focal-plane detector.

Different with above various technology, the principle of this patent uses micro optical element and lenticular convergence effect to be converged to by ultra-violet radiation in the photosensitive unit of more small size, obtains the ultra-violet radiation energy identical with original photosensitive unit by lenticule.By the method for the area reducing photosensitive unit, the absolute value of the line dislocation in photosensitive unit and fault in material quantity is significantly reduced.In addition, under same process condition, the zero-bias dynamic electric resistor R of little photosensitive unit ₀higher than the R of the photosensitive unit of large area ₀.When responsiveness is substantially constant, higher figure of merit R can be obtained ₀a, thus the detectivity improving ultraviolet focal-plane detector.

The back-illuminated type ultraviolet focal-plane detector of a kind of integral micro-lens array of this patent, comprise the photosensitive element array chip 1 of ultraviolet, reading circuit 2, mixing and interconnecting indium post 3, microlens array 4, jewel sheet substrate 5, the photosensitive element array chip 1 of ultraviolet is connected with reading circuit 2 by mixing and interconnecting indium post 3, and microlens array 4 is integrated on the ultraviolet irradiation plane of incidence on the jewel sheet substrate 5 of the photosensitive element array chip 1 of ultraviolet;

The photosensitive unit of described ultraviolet is pn junction diode, p-i-n junction diode, schottky junction diode, Multiple Quantum Well diode or avalanche diode.

Described microlens array 4 is planoconvex spotlights, and its profile is circular, square or hexagon.

After prepared by the photosensitive element array chip 1 of ultraviolet, before preparing mixing and interconnecting indium post 3, prepare microlens array 4, concrete steps are as follows:

1) the microlens array lithography mask version of same size is prepared according to photosensitive first size of ultraviolet focal-plane detector and number;

2) under the microscope of mask aligner, the photosensitive unit of microlens array lithography mask version and ultraviolet focal-plane detector is aimed at by photo-etching mark, because ultraviolet focal-plane detector jewel sheet substrate is transparent for visible ray, so can see whether photosensitive first photo-etching mark in jewel sheet front and the figure of microlens array are aimed at by regulating the microscopical depth of field;

3) photoresist of ultraviolet focal-plane detector jewel sheet substrate back is exposed, developed, then ultraviolet focal-plane detector jewel sheet substrate is attached on heating plate by thermal grease conduction, when temperature is elevated to more than the glass transition temperature of photoresist, the viscosity of photoresist declines and form spherical cap shape under capillary effect, is at this moment taken off by ultraviolet focal-plane detector jewel sheet substrate;

4) use inductively coupled plasma etching method, photoresist etching removed, now the spherical cap shape of photoresist has been transferred on ultraviolet focal-plane detector jewel sheet substrate, forms ultraviolet focal-plane detector jewel sheet microlens array.

The advantage of this patent is the preparation technology of microlens array and equipment, the process compatibility of microelectronics industry, without the need to adding complicated Special Equipment in addition.

Accompanying drawing explanation

Fig. 1 is the structural representation of the back-illuminated type ultraviolet focal-plane detector of integral micro-lens array.

Fig. 2 is the structural representation of microlens array.

Fig. 3 is the preparation flow figure of microlens array; Wherein step (1) is cleaned substrate, step (2) applies photoresist with sol evenning machine, step (3) uses mask aligner to carry out photoetching, step (4) uses heater plate photoresist, and step (5) is that etching removes photoresist.

Fig. 4 is the local pattern of microlens array.

Fig. 5 is response spectrum.

Embodiment

Below in conjunction with accompanying drawing, with pixel number for 320 × 256, Pixel size is 30 × 30 μm ², photosensitive first size is 15 × 15 μm ²ultraviolet focal-plane detector be example, the specific implementation method of this patent is done to describing in detail further.

1. prepare microlens array reticle according to the specification of 320 × 256 ultraviolet focal-plane detectors;

2. the jewel sheet substrate that couple 0.4mm is thick carry out thinning and be chemically mechanically polished to 100 μm thick, the surface quality after polishing is 80/50 cut/pit.

3. pair 320 × 256 ultraviolet focal-plane detector trichloroethylenes, ether, acetone, alcohol respectively clean 5 minutes, finally dry up with nitrogen.

4. even glue AZ5200 on jewel sheet substrate, even glue speed is 4000rpm/min.

5., by the microscopical depth of field of adjustment mask aligner, the photo-etching mark in microlens array reticle is aimed at the photo-etching mark of substrate face by mask aligner, and carries out exposing, developing.

6. be evenly beneficial to uniform heat conduction with 7501 vacuum silicon grease in substrate face painting.

7. substrate face is attached to constant temperature on the heating plate of 140 degrees Celsius, covers with culture dish between the period of heating, prevent dust fall; Heat and take off after 4 minutes.

8. on step instrument, measure the height of photoresist spherical crown, see and whether reach predetermined height, otherwise do over again from step C.

9. put into ICP etching machine to etch, etching parameters is: BCL ₃: 45sccm, pressure: 10mtorr, temperature: 5 degrees Celsius, ICP power: 1500W, RF power: 30W, etch period: 30min, He refrigerating gas pressure: 10Torr;

Effect situation

As shown in Figure 4, the local configuration scintigram of the ultraviolet focal-plane detector microlens array obtained with step instrument, visible photoresist fully melts, and surface roughness is in tolerance interval.It is 15 × 15 μm to photosensitive first size ²ultraviolet focal-plane detector, response spectrum under integral micro-lens array and non-integral micro-lens array two kinds of situations contrasts, as shown in Figure 5, the explorer response rate of visible integral micro-lens array is 3.8 times of the explorer response rate of non-integral micro-lens array, and this illustrates that the light dropped on beyond photosensitive unit all converges in photosensitive unit by lenticule.Relative to 28 × 28 μm that fill factor, curve factor is 87.1% ²photosensitive unit, achieve while accepting the ultraviolet irradiation of equivalent, there are 15 × 15 μm ²photosensitive elemental area and the junction capacitance of the ultraviolet focal-plane detector of photosensitive unit are reduced into 28.7%, figure of merit R ₀a is increased to 3.5 times, thus detectivity is increased to 1.9 times.

Claims (2)

1. the back-illuminated type ultraviolet focal-plane detector of an integral micro-lens array, comprise the photosensitive element array chip (1) of ultraviolet, reading circuit (2), mixing and interconnecting indium post (3), microlens array (4), jewel sheet substrate (5), it is characterized in that: the photosensitive element array chip (1) of ultraviolet is connected with reading circuit (2) by mixing and interconnecting indium post (3), microlens array (4) is integrated on the ultraviolet irradiation plane of incidence on the jewel sheet substrate (5) of the photosensitive element array chip (1) of ultraviolet;

The photosensitive unit of described ultraviolet is pn junction diode, p-i-n junction diode, schottky junction diode, Multiple Quantum Well diode or avalanche diode.

2. the back-illuminated type ultraviolet focal-plane detector of a kind of integral micro-lens array according to claim 1, is characterized in that: described microlens array (4) is planoconvex spotlight, and its profile is circular, square or hexagon.