The application is that application number is " 02806788.6 ", and denomination of invention is " semiconductor light-emitting elements ", and the applying date is the dividing an application of application on March 20th, 2002.
Embodiment
With regard to light-emitting component, problem of the present invention has most important meaning, and according to this point, the best form of light-emitting component of the present invention is LED.In addition,, as hereinafter described, enumerate and use the LED (GaN series LED) of the significant especially GaN series material of serviceability of the present invention to be example, this light-emitting component is described though do not limit material series.
Any one form of this light-emitting component all is provided with concavo-convex refractive index interfaces below luminescent layer, according to its effect and effect, improve light and take out efficient.From how forming this concavo-convex refractive index interfaces this point, this light-emitting component can be divided into above-mentioned form (I), form (II) again.
In above-mentioned form (I), on crystalline substrates processing concavo-convex, by should concavo-convexly imbedding, constitute concavo-convex refractive index interfaces with semiconductor crystal (particularly GaN serial crystal).
In above-mentioned form (II), on concavo-convex, make the growth of GaN serial crystal, by it being imbedded, constitute concavo-convex refractive index interfaces with another GaN serial crystal.
At first, above-mentioned form (I) is described.Fig. 1 (a) is the structure example as the light-emitting component of form (I), show the figure of GaN series LED, the concavo-convex 1a of processing on the surface of first crystal layer (following also claim " ground floor ") 1, second crystal layer (following also claim " second layer ") 2 that constitutes by the material that has with above-mentioned crystal layer different refractivity on this concavo-convex 1a by separator or directly should concavo-convexly imbed and grow.Therefore, different refractive index interfaces concave-convex surface.Again on it by crystal growth, stacked semiconductor crystal layer (n type contact layer 3, luminescent layer A, p type contact layer 4) is component structure after forming electrode P1, P2.Component structure among this figure is simple DH structure, but is provided with the contact layer of special use, special-purpose cover layer etc., in addition, also luminescent layer can be made SQW structure, MQW structure, and all structures as light-emitting component are arranged.
Utilize said structure, the light along horizontal transmission that produces in luminescent layer A is subjected to the influence of concavo-convex refractive index interfaces 1a, produces a kind of mode conversion (because diffuse reflection makes the direction of propagation of light become the face light emission direction), becomes towards horizontal direction in addition.Its result, towards the light quantity increase of the face of taking-up, the light absorbing zone of element internal reduces, its result, light takes out efficient and improves.
As described in the explanation of prior art, so far, the light difference with direction beyond the conveying end of light (for example, downwards or laterally) is propagated merely by only reflecting on end face, makes light towards conveying end.
Different therewith, in the present invention, the GaN series semiconductor layer region that will form by epitaxial growth on substrate is regarded [making the waveguide of light along horizontal transmission] as, by on the position that can exert an influence to light, forming concavo-convex refractive index interfaces along horizontal transmission along this waveguide, a kind of mode conversion (or diffuse reflection takes place) takes place, and makes light towards other directions.
In the present invention, being conceived to along the light of horizontal transmission is the center with the luminescent layer, makes electric field as the electromagnetic wave that expands its levels to, along the situation of horizontal transmission.In the active layer of common DH structure, the thickness of luminescent layer is about 10nm~100nm.Lateral light is not only propagated in so thin active layer, and as the big fluctuation of the distribution range that arrives crystalline substrates along horizontal transmission.Therefore, shown in Fig. 1 (a), if in the distribution of lateral light, form concavo-convex refractive index interfaces 1a, then the fluctuation of lateral light is influenced, utilize a kind of mode conversion (or take place diffuse reflection), can make some light quantities, and then inject to extraneous light quantity and also increase towards other directions.In addition, this concavo-convex also have as will be from luminescent layer towards light diffuse reflection of this concavo-convex emission itself to the function of the reflecting surface of top.
The function that descends of reflectivity of this concavo-convex vertical direction that also has an interface that makes GaN series semiconductor layer/Sapphire Substrate in addition, suppress the generation of the standing wave of above-below direction, make a lot of light enter Sapphire Substrate, taking-up amount from the light of Sapphire Substrate increases, and can also improve light during particularly from substrate one side-draw bright dipping and take out efficient.
In form (I), so-called process on the surface of ground floor concavo-convex is constitute concavo-convex in surface of ground floor own.This is added in form on the surface of covering concavo-convex different with the masking layer that is made of SiO2 etc. that adopts well-known so far cross growth method.
In addition, utilize above-mentioned structure, can make that the Grown GaN serial crystal reduces dislocation density effectively on crystalline substrates.In this structure, the masking layer of using without ELO.One secondary growth just can be finished the reduction of dislocation density.
That is, in the ELO method of using mask, make the GaN film after growth in the substrate, temporarily from grower, be fetched into the outside, form mask, return again in the grower, grow again.Different therewith, on crystalline substrates, form in the concavo-convex growth method that carries out, with having processed after concavo-convex crystalline substrates places in the grower, do not need to stop growth, therefore there is not the regrowth interface, can make the good structure of crystallinity.
In addition, in above-mentioned structure of the present invention, owing to not using mask to make GaN serial crystal layer growth, so there is not the problem that impurity pollutes, crystal quality descends by the decomposition generation of mask.
Utilize these effects and effect, can make the structure of the few advantages of good crystallization of dislocation, the result, light output is high especially.In addition, become the result that the dislocation density of the reason of deterioration reduces, can seek long lifetime.
As concavo-convex overall configuration figure, can not make influenced the getting final product of fluctuation of lateral light, can be the figure that has disposed the recess (or protuberance) of point-like on the surface (datum plane) at ground floor, also can be with certain convex-concave pattern linearity or curvilinear groove (or protruding ridge) striated that has been spaced.The figure that protruding ridge is lattice-shaped also can be described as the figure of having arranged the dihedral recess.What can produce powerful influence to lateral light in them is the convex-concave pattern of striated.
Concavo-convex section configuration can be enumerated: shown in Fig. 2 (a), rectangular (comprising trapezoidal) is wavy; Shown in Fig. 3 (c), be the wavy or sine curve shape of triangle; And be that they are synthetic wavy etc.
The concaveconvex structure that the specification of concavo-convex thin portion can be used with reference to the described crystal growth that forms for the dislocation density that reduces the GaN serial crystal in back.
In addition, because concavo-convex influential, so this concavo-convex preferably being positioned in the specific range of counting from luminescent layer to lateral light.This distance shown in k, is about 5.5 microns to 20 microns in Fig. 1 (a), particularly is preferably 1 micron to 10 microns value, comprises the substrate top surface of common LED and the distance of luminescent layer lower surface in this scope.Therefore, if with the crystalline substrates of element as ground floor, on its upper surface, form concavo-convexly, it is imbedded and makes second layer growth, the composed component structure, then this concavo-convexly exerts an influence fully to lateral light.
The material series of this light-emitting component can be well-known so far materials such as GaAs series, InP series, GaN series, but the reduction at the dislocation density of crystal becomes in the GaN light-emitting component (material of luminescent layer is the light-emitting component of GaN series semiconductor at least) of big problem, and serviceability of the present invention is the most remarkable.In GaN series light-emitting component, the dislocation density of seeking to reduce the GaN serial crystal is element necessary major premise when forming.In the present invention, as described belowly provide a kind of growth method that has adopted for the useful concaveconvex structure of the dislocation density of seeking to reduce the GaN serial crystal, because can be with the concavo-convex usefulness on the above-mentioned refractive index interfaces of this concaveconvex structure double as, so with only be that purpose forms concavo-convex situation and compares with the refractive index interfaces, concavo-convex serviceability has improved.Below, the GaN serial crystal growth method that uses this concaveconvex structure is described.
Using the GaN serial crystal growth method of concaveconvex structure is a kind of like this method: shown in Fig. 2 (a), the concavo-convex 1a of processing on the surface of crystalline substrates (ground floor) 1, shown in Fig. 2 (b), from its recess and protuberance, GaN serial crystal 21,22 is grown while forming crystal plane structure, shown in Fig. 2 (c), make the unlikely cavity that becomes of recess, in fact fill with the GaN serial crystal, should concavo-convexly imbed and grow.The so-called growth that forms crystal plane structure in fact on one side means to comprise the growth that is similar to the described crystal plane structure growth in back (for example, while generate along thickness direction concavo-convex growth etc.).Below, use the growth method of this concavo-convex recess to be called " this crystal face growth method " with filling.
In this crystal face growth method of Li Yonging, such feature is arranged in the present invention: on the surface of the crystalline substrates by the state that do not form at separator processing concavo-convex, the hair side that just can form crystal face from crystal growth originally is provided in advance.
By being located on the crystalline substrates with concavo-convex, when on this face, carrying out the vapor phase growth of GaN serial crystal, concave surface and the convex surface unit datum level that growth generates as crystal plane structure that will divide with step each other.By with concave surface and convex surface as the possible face of crystal plane structure growth, shown in Fig. 2 (b), both begin to be the crystal growth of convex surface to early growth period from the concave surface convex surface.
Its result, the dislocation line that extends from crystalline substrates along the C direction of principal axis is not propagated upward in crystal face (inclined-plane of the crystal 21,22 shown in Fig. 2 (b)) upper edge transverse curvature.Then shown in Fig. 2 (c), continued growth, make aufwuchsplate smooth after, this near surface becomes the low dislocation density zone that propagation from the dislocation of substrate has reduced.
In the conventional method that makes the growth of GaN serial crystal, employing MOVPE method etc. by low temperature separators such as AIN, make the growth of high temperature GaN film on sapphire C face substrate.If on the low temperature separator, make high temperature GaN growth, a part of separator that then will form crystallization is as growth cores, high temperature GaN crystal begins to be island growth, but the crystal of the fast growth crystal that the speed of growth is slow covers and is integral, promote cross growth, just form smooth GaN crystal soon.At this moment, on Sapphire Substrate, do not process when concavo-convex, grow,, thereby be flattened so that the fixed C face of speed of growth slow and steady occurs.This is because of the fast growth of the horizontal speed of growth than stable C face.
On the other hand, the size restrictions of coming cross growth is applied the crystal growth zone for processing on substrate surface is concavo-convex, if for example concavo-convex shape of stripes that is parallel to (11-20) direction that vertically is, then owing to the growth to (1-100) direction is limited, so the axial speed of growth of C rises, and can form the fixed { 1-101} icocline crystal face of rate of crystalline growth slow and steady.By on the aufwuchsplate of substrate, carrying out concavo-convex processing, apply the size restrictions of the growth district of above-mentioned cross growth among the present invention.
In this manual, the crystal face of institute's mark, grain arrangement all are crystal face, the orientation of Grown GaN crystal on crystalline substrates.
In fact the so-called second layer fills recess, not only is whole occupied states, and fills to such an extent that constitute the effective concavo-convex refractive index interfaces that can reach purpose of the present invention and get final product.For example, though produce the space at the grown crystal that begins from recess with from the part that the grown crystal that protuberance begins becomes one sometimes, it is good obtaining the change of refractive this point.In addition, even produce the space on recess, but the bottom surfaces of the second layer of growing on recess enters in the recess with the degree that can reach purpose of the present invention, and constituting effectively, concavo-convex refractive index interfaces gets final product.
Different with this crystal face growth method, for example, open in the 2000-106455 communique the spy, disclose and be located on the crystalline substrates concavo-convex, recess is stayed as the cavity, make the method for gallium nitride series semiconductor growing., in such growth method, owing to do not fill recess and do not stay as blank part, so refractive index interfaces (, the lower surface of the second layer) constitutes concavo-convexly fully when the second layer is seen, the effect and the effect of the pattern modulation that lateral light is carried out are little., the existence of blank part is unfavorable for making the heat that produces on the luminescent layer to escape to substrate one side.In addition, owing to can not control the propagation of dislocation energetically, so dislocation can propagate into the top of protuberance, the reduction effect of dislocation density is also insufficient.
The crystalline substrates of using in this crystal face growth method is the substrate that makes the formation substrate that various semiconductor crystal layer growths use, and the separator etc. that also can be described as lattice adjustment usefulness is the substrate of inchoate state also.As preferred crystalline substrates, can use sapphire (C face, A face, R face), SiC (6H, 4H, 3H), GaN, AlN, Si, spinelle, ZnO, GaAs, NGO etc., if but be adapted to purpose of the present invention, also can use material in addition.In addition, the face orientation of substrate does not limit especially, can be more appropriate substrate yet, can also be the substrate that has the drift angle.
So-called GaN series semiconductor is that (the crystal mixing ratio is arbitrarily for 0≤X≤1,0≤Y≤1,0≤Z≤1, X+Y+Z=1) Biao Shi compound semiconductor, for example, can enumerate AlN, GaN, AlGaN, InGaN etc. as important compound with InXGaYA1ZN.
As mentioned above, use in this crystal face growth method concavo-convex be that both carry out the concaveconvex shape that the crystal plane structure growth can generate from concave surface, convex surface, and, the concaveconvex shape that can work preferably to the lateral light that produces in the luminescent layer.This concavo-convex preferred figure of describing, this concavo-convex preferred specification below are described.
Roughly say, the concavo-convex configuration figure of using in this crystal face growth method can be concavo-convex with reference to what can exert an influence to the fluctuation of above-mentioned lateral light, can enumerate the figure of the recess (or protuberance) of having arranged point-like, with the convex-concave pattern of certain striated that has been spaced linearity or curvilinear groove (or ridge).In addition, concavo-convex section configuration can enumerate that rectangle (comprising trapezoidal) is wavy, triangle is wavy, sine curve shape etc., spacing also as mentioned above, it is certain there is no need.
In these various forms, the convex-concave pattern of the striated that linearity or curvilinear groove (or ridge) are arranged at certain intervals can be simplified its production process, and the making of figure simultaneously is also easy, big to the influence of lateral light as mentioned above, and this point is good.
Convex-concave pattern is under the situation of striated, this striped vertically can be arbitrarily, but, under<11-20〉direction situation, when having been applied size restrictions, cross growth forms { inclination crystal face such as 1-101} face easily by it being imbedded and the Grown GaN serial crystal.Its result, the dislocation of propagating from substrate one side along the C direction of principal axis is difficult to upwards propagate in this crystal face upper edge transverse curvature, can form the low dislocation density district, and this point is good especially.
On the other hand, though make striped vertically under<1-100〉direction the situation, by selecting to form easily the growth conditions of the crystal face of simulation, can obtain and above-mentioned same effect.
Secondly with the section shown in Fig. 2 (a) rectangular wavy concavo-convex be example, the concavo-convex preferred size of enumerating this crystal face growth method and influencing horizontal direction of light effectively.
The width W 1 of groove is 0.5 micron~20 microns, particularly is preferably 1 micron~10 microns.
The width W 2 of protuberance is 0.5 micron~20 microns, particularly is preferably 1 micron~10 microns.
Concavo-convex amplitude (degree of depth of groove) d is 0.05 micron~5 microns, particularly is preferably 0.2 micron~3 microns.
These sizes and the spacing calculated according to its etc. in other section configurations concavo-convex too.
Utilize the combination of the width of the width of recess and protuberance, can carry out various variations though on institute's Grown GaN serial crystal, how to form crystal face, but this crystal face is the face of the degree of the propagation bending that can make dislocation to get final product, preferred configuration is shown in Fig. 2 (b), do not have the par fully from the crystal unit 21,22 of each unit datum level growth on top separately, two crystal faces are the form of the chevron (pyrometric cone or the long mentioned ridge-shaped that connects into the mountain range shape longways) of intersection on the top.If such crystal face, then can make the dislocation line of accepting from above-mentioned basal surface roughly crooked fully, can further reduce the dislocation density directly over it.
In addition, the not only combination of concavo-convex width, and change concave depth (height of protuberance) d, also can carry out the control that crystal face forms the district.
As concavo-convex processing method, for example, illustrate for example and adopt common photoetching technique, form figure corresponding to concavo-convex form as purpose, adopt RIE technology etc. to carry out etching processing, obtain as the concavo-convex method of purpose etc.
The method of carrying out the growth of crystal semiconductor layer on substrate can be HVPE, MOVPE, MBE method etc.Under the situation of making thick film, the HVPE method is good, but under film forming situation, MOVPE method or MBE method are good.
According to growth conditions (gaseous species, growth pressure, growth temperature etc.), can control the formation of crystal face when carrying out crystal growth.Divide under the situation about forcing down at NH3 and occur easily that { crystal face of 1-101} face is compared with decompression during the normal pressure growth and occurred crystal face easily in when growth decompression.
If improve growth temperature in addition, though then can promote cross growth, if low-temperature epitaxy, then the axial growth fraction cross growth of C is fast, forms crystal face easily.
Can carry out the control that crystal face forms though show, if, also can use flexibly according to purpose producing in the scope of effect of the present invention according to above growth conditions.
In this crystal face growth method, when the concavo-convex GaN of the making serial crystal growth that forms from crystalline substrates, also can be on crystalline substrates direct growth, can also pass through well-known low temperature separator, other well-known separators such as GaN, AlN.
More than, show the concavo-convex method of imbedding of carrying out, but, also can not be grown to the master with crystal plane structure by selecting concavo-convex size and crystal growth condition with this crystal face growth method, utilize general growth (for example, the big growth of cross growth) to imbed with concavo-convex.
Secondly, illustrate for example concavo-convex section is made the wavy form of triangle.Under the situation that the GaN crystalline substrates is used as ground floor, this form is particularly useful.
As the concavo-convex method that the Surface Machining of crystalline substrates is become to have such inclined-plane, for example, shown in Fig. 3 (a), utilize the figure as purpose such as striated, lattice-shaped, on the surface of GaN substrate 1, form the resist R that its section configuration is the thin protruding arcuation in two edges, can enumerate the method for implementing relevant gas etching this.As the material of resist, preferably use the material that can bear this gas etching.By the GaN substrate that has such resist R is carried out this gas etching, the zone of having exposed the GaN substrate is from being etched at first, and on the other hand, the thin shoulder of resist consumes when carrying out etching, and the etching of GaN crystal begins slack-off.Because being staggered, time of beginning of etching carries out etching like this, thus last as Fig. 3 (b) shown in, be as overall its section and be similar to the concavo-convex of triangular wave.Though the part that resist is the thinnest can be removed by this gas etching, also can stay, in the case, also can use the remover of the resist special use that can not damage the GaN crystal to be removed.In addition, if carry out the etching processing of protuberance, then better effects if at last.
Next enumerates the bevelled concavo-convex preferred size shown in Fig. 3 (b).
Concavo-convex spacing is 2 microns~40 microns, particularly is preferably 2 microns~20 microns.
Concavo-convex amplitude is 0.05 micron~5 microns, particularly is preferably 0.2 micron~3 microns.
Bevelled concavo-convex configuration figure is identical with this crystal face growth method described above, can enumerate the figure, best of the recess (or protuberance) of having arranged point-like with the convex-concave pattern of the convex-concave pattern, particularly striated of certain striated that has been spaced linearity or curvilinear groove (or ridge).
Secondly, shown in Fig. 3 (c), the growth that makes the second layer 2 is from concavo-convex all surfaces, grow into always concavo-convex be embedded in fully till.At this moment the sidewall of groove has become the crystal face of simulation, and institute is so that during the growth of GaN serial crystal, as interface dislocation line bending, can obtain formation low dislocation density effect and effect partly on the upper strata with this crystal face., so concavo-convexly not only lateral light is worked, and very strong effect is also arranged as reflecting surface, be a kind of good form.
Though etching method is unqualified, but if the gas etching that is undertaken by RIE that has used the etching gas that comprises chlorine (Reactive Ion Etching) etc., be under the situation of GaN crystalline substrates then, on plane of crystal, can not stay damage, so good at ground floor.
In the above description, in GaN series light-emitting component, though show the example of the concavo-convex dual-purpose that the concaveconvex structure of this crystal face growth method is used as lateral light, not necessarily must dual-purpose, also can be that a concavo-convex form of only using for lateral light is set in addition.
Secondly, above-mentioned form (II) is described.Fig. 1 (b) is the figure that represents the GaN series LED as the structure example of the light-emitting component of above-mentioned form (II), on the surface of the crystal layer on the basis that becomes crystal growth (being crystalline substrates among this figure) S, make a GaN serial crystal (following also claim " first crystal ") 10 growths, and form crystal plane structure on one side, make concavo-convex on one side, protuberance at least with this in concavo-convex is (in the example of Fig. 4, first crystal 10 is own) cover and get up to make the 2nd GaN serial crystal (following also claim " second crystal ") 20 growths with refractive index different with a GaN serial crystal, therefore, constitute concavo-convex refractive index interfaces, can obtain and same effect and the effect of above-mentioned form (I).
In this form (II), make the concavo-convex moment in first crystal growth, composition is changed, change refractive index, that is, be important with regard to not regrowth as long as first crystal has reached planarization.Change of refractive (variation of composition) can be step-like variation, also can be the continuous variation of seeing in the refraction index profile waveguide.
Make first crystal growth become concavo-convex method not limit, Yi Bian Yi Bian but, can make the concavo-convex growth that is fit to reach purpose of the present invention by in fact forming crystal plane structure or forming the growth of the crystal plane structure of simulation.
Here said concavo-convex, be not only the wavy concavo-convex of protuberance continuous adjacent, and can be shown in Fig. 5 (a)~(c), first crystal 10 of convex disposes discretely, and another material is present between them as recess.
The concavo-convex shape that is formed by the growth of the crystal face of first crystal does not limit, for example, it can be the trapezoidal shape that the par is arranged at the top of protuberance, but for effect and the effect that obtains concavo-convex refractive index interfaces fully, with middle illustrate identical of above-mentioned form (I), preferably the crystal unit from each unit datum level growth does not have the par fully on top separately, and two crystal faces are the form of the chevron (pyrometric cone or the long mentioned ridge-shaped that connects into the mountain range shape longways) of intersection on the top.
In form (II), if can make the method for the first crystal concave-convex surface, then which type of method can adopt, and is the concavo-convex moment at first crystal, makes second crystal be covered with its growth, constitutes concavo-convex refractive index interfaces and gets final product.
As making the GaN serial crystal grow into concavo-convex method, particularly preferably make crystal face growth (perhaps being similar to its method).For this reason, can enumerate the method for on the crystal layer surface on the basis that becomes crystal growth, the crystal growth zone being carried out size restrictions.
For example, can enumerate: 1. shown in this crystal face growth method that describes in detail above, on the crystal layer surface on the basis that becomes crystal growth, process concavo-convex method (Fig. 1 (b), Fig. 4, Fig. 5 (a), Fig. 6, Fig. 7); 2. the method (Fig. 5 (b)) of the masking graphics that the GaN serial crystal can not grow is set on the specific region on the crystal layer surface on the basis that becomes crystal growth; 3. the specific region on the crystal layer surface on the basis that becomes crystal growth is carried out suppressing the surface-treated method (Fig. 5 (c)) etc. of GaN serial crystal growth.
Utilize these methods, first crystal growth also makes concavo-convex.
As said method 1., also can be not only according to this crystal face growth method shown in Figure 4, in fact fill the form of concavo-convex recess with GaN serial crystal 10,20, and shown in Fig. 5 (a), after only above whole protuberances, making first crystal 10 carry out the crystal face growth, switch to second crystal 20, on recess, carry out the crystal face growth, with the form of recess as the cavity reservation.In addition, in above-mentioned form (I), can utilize also that to have with Fig. 3 be inclined-plane concavo-convex of example explanation.As shown in Figure 7, this is on bevelled concavo-convex on the crystalline substrates S, makes 10 growths of first crystal, make the crystal face growth of simulation after, switch to the form of second crystal 20.
As said method 2., shown in Fig. 5 (b), using so far, the various cross growth methods of well-known mask all can both be suitable for.
As the material of mask m, can use nitride or the oxide of Si, Ti, Ta, Zr etc., i.e. SiO2, SiNX, TiO2, ZrO2 etc. also can well-known mask materials.As the figure of mask, can be with reference to well-known figure, but importantly based on the figure of striated, the figure of lattice-shaped etc., the direction particular importance of the boundary line of blasnket area and non-blasnket area.Make along the boundary line Grown GaN serial crystal that makes blasnket area and non-blasnket area<situation of 1-100〉the direction straight lines that extend under, cross growth speed is fast.Otherwise,, form easily then that { the oblique crystal face of 1-101} face etc., with regard to the present invention, the crystal face that can obtain to get well is grown if the boundary line that makes blasnket area and non-blasnket area is<11-20〉direction straight line.
Detailed dimensions, atmosphere gas (H2, N2, Ar, He etc.) and the crystal growth (HVPE, MOVPE) etc. of the mask when implement using the cross growth method of mask, can be with reference to well-known technology, for example, in document (A.Sakai etc., Appl.Phys.Lett.71 (1997) 2259.), detailed record is arranged.
As said method 3., for example, can enumerate the spy and open the method for putting down in writing in the 2000-277435 communique of in mask, using the residue of SiO2.Therefore, can present effect and the effect same with aforementioned mask, it is possible that the zone of never handling makes the GaN serial crystal carry out the crystal face growth with being convex.
In above-mentioned form (II),, (AlGaN/GaN), (AlInGaN/GaN) etc. have been provided for example as first crystal that is the convex growth and the combination (first crystal/second crystal) that covers its second crystal.Because AlGaN is present in the downside of GaN as first crystal, so be equivalent to be called the high center of refractive index of fiber waveguide as the GaN of second crystal, AlGaN as first crystal is equivalent to its low cover layer of refractive index ratio, effect of the present invention and effect are higher, in addition, even also effective as the reflector.(for example, GaN) both can undope, also can be the n type with the concavo-convex GaN serial crystal of imbedding.
Though below 1.~3. be to make the GaN serial crystal carry out the whole bag of tricks of crystal face growth usefulness, but in any method, the 3rd GaN serial crystal that concavo-convex planarization is used both can be second crystal (being second crystal form of continued growth till planarization in the same old way), also can be the crystal (comprise first crystal) different with second crystal.In addition, the 3rd GaN serial crystal can also be to be the crystal that multilayer changes.
By selecting the form of the 3rd GaN serial crystal, in the growth course of crystal plane structure or after the growth, exist the composition that makes the GaN serial crystal to be the co-variation that the multilayer shape changes.Below, the concave-convex of carrying out with above-mentioned this crystal face growth method of usefulness in 1. becomes example, and this variation is described.
In the example of Fig. 4 (a), though covering second crystal 20 of first crystal 10 grows in the same old way, until make concavo-convex smooth till, but in this changes, shown in Fig. 4 (b), make second crystal (for example AlGaN) 20 that covers first crystal (for example GaN) 10 be membranaceous, another GaN serial crystal (for example GaN) 20a that refractive index is different in addition grows into till the planarization always.In the example of Fig. 4 (c), second crystal 20 is and is covered with first crystal 10 membranaceously and grows, and the other first crystal 2 0a, the second crystal 2 0b are covered with second crystal 20 successively, and the mutually different GaN serial crystal of refractive index film forms multi-layer film structure.
If adopt the form of the multi-layer film structure that constitutes by the mutually different GaN serial crystal of such refractive index film, then more can improve reflectivity.For example,, the most suitably design the thickness of film, also can form the Bragg reflection layer as the superlattice structure that constitutes by bilayers such as AlGaN/GaN corresponding to emission wavelength.
Making under the situation of multi-layer film structure, do not limit the number of plies of film, can be from the structure that clips a skim shown in Fig. 4 (b), change to the multilayer shown in Fig. 4 (c) (5 pairs to 100 pairs).
Which is not limited to constantly will switches to second crystal by first crystal of growth (preferably crystal face growth) on concavo-convex, for example, show to pattern the concavo-convex growth conditions of multilayer that constitutes by the GaN serial crystal among Fig. 6, also can change composition when growing on the male and fomale(M﹠F) that on substrate S, forms from the growth phase at initial stage.In the figure, be multilayer shape growth and constitute concavo-convexly, drawn hachure in order to distinguish the different GaN serial crystal of refractive index.
In form (II), can reach ideally aspect the purpose of the present invention, the protuberance height of concavo-convex refractive index interfaces is preferably 0.05 micron~10 microns, and particularly 0.1 micron~5 microns are just better.In addition, in well-known cross growth method so far, the spacing of concavo-convex refractive index interfaces is approximately 1 micron~10 microns, is good value about particularly 1 micron~5 microns.About the concavo-convex spacing of utilizing this crystal face growth method to obtain, (I) is identical with above-mentioned form.
More than, no matter be above-mentioned form (I) or form (II), the difference of the refractive index of the refractive index of ground floor (first crystal) and the second layer (second crystal) is from the luminescent layer wavelength of light emitted, be preferably more than 0.01, particularly just better more than 0.05.
In addition, the magnitude relationship of both refractive indexes, be preferably ground floor (first crystal)<second layer (second crystal), therefore, the second layer (second crystal) is equivalent to the high center of refractive index in the fiber waveguide, ground floor (first crystal) is equivalent to its low cover layer of refractive index ratio, and effect of the present invention and effect are bigger.
Secondly, provide the preferred configuration as the situation of material, the output of luminescent layer ultraviolet (wavelength is that 420nm is following) with InGaN.At this moment InGaN, its In composition is below 0.15.
No matter be above-mentioned form (I) or form (II), can both utilize the few good crystal of concavo-convex acquisition dislocation, the result, light output is high especially.In addition, reduce the result of the dislocation density of the reason that becomes deterioration, can seek long lifetime.
As the preferred configuration of output under the ultraviolet situation, in above-mentioned form (I), the material of the GaN serial crystal layer that will form on substrate concavo-convex is defined as the GaN crystal.On this GaN crystal layer, constitute the MQW structure of the InGaN crystal layer of ultraviolet composition as the trap layer will take place, as luminescent layer.By the way, n type cover layer is made of GaN, becomes the structure that does not have the AlGaN layer between luminescent layer and low temperature separator.
In this form, though ultraviolet composition InGaN can take place,, do not use necessary in the past AlGaN, and use GaN as n type covering layer material as luminescent layer.In the present invention, concerning the luminescence-utraviolet layer,, also see to draw the sealing that can reach the hole fully even n type cover layer is GaN.This can think owing to the effective mass from p type layer injected holes is heavy, so diffusion length is short, can not arrive n type cover layer fully.Therefore, in structure of the present invention, the n type GaN layer as the lower floor of InGaN luminescent layer exists strictly speaking, is not equivalent to cover layer in the past.Got rid of the AlGaN that between crystalline substrates and luminescent layer, exists as cover layer, owing to be the GaN layer, so can reduce the distortion of InGaN luminescent layer.
Under the situation that luminescent layer (trap layer) deforms,, cause well construction to tilt the overlapping minimizing of the wave function in electronics and hole by the generation of being out of shape the piezoelectric field that produces.Its result, the join probability again in electronics and hole reduces, and light output weakens.For fear of the generation of this situation, by Si being mixed in the MQW structure, carried out eliminating the trial of piezoelectric field, but owing to cause the crystalline decline that causes by doping, so not good method.As mentioned above, just do not had such danger yet, can obtain high output by getting rid of n type AlGaN layer.
More than concavo-convex on Shuo Ming the use substrate above-mentioned effect and the effect that reduce dislocation density and got rid of AlGaN complements each other, and the InGaN luminescent layer can reduce dislocation density, reduces deformation simultaneously, has improved light output and component life fully.
In addition, in output another preferred configuration under the ultraviolet situation, the material on the barrier layer of the quantum well structure of luminescent layer is defined in GaN.Therefore, between trap layer and low temperature separator, get rid of the AlGaN layer, can suppress the deformation of trap layer, can reach high outputization, long lifetime.In existing quantum well structure, consider that charge carrier is closed in the trap layer, AlGaN can be used for barrier layer and cover layer.
If then because the optimum value of crystal growth condition is very different, there is following problem in their combination under the situation of AlGaN and InGaN.AlN is than GaN fusing point height, and GaN is lower than AlN fusing point.Therefore, optimum growth temp should be definite like this: suppose that GaN is 1000 ℃, then InGaN is below 1000 ℃, is preferably about 600~800 ℃, and AlGaN is more than GaN.AlGaN is being used under the situation on barrier layer,, is not then reaching best crystal growth condition separately, the problem that has crystal quality to descend if do not change the growth temperature of AlGaN barrier layer and InGaN trap layer.On the other hand, change growth temperature, become the setting growth interruption, under situation, in the process of this growth interruption,, problems such as crystal defect take place to occur on the surface because corrasion causes varied in thickness as the trap layer of the film about 3nm.Because these tradeoffs are arranged, be difficult so obtain high-quality product with the combination of AlGaN barrier layer, InGaN trap layer.In addition, because the barrier layer is made AlGaN,, hinder high outputization so make the problem of trap layer distortion in addition.Therefore, in the present invention, as the material on barrier layer, carried out reducing the trial of the problem of above-mentioned compromise, improved crystal quality with GaN.In addition, in order to reduce distortion, when using GaN as n type cover layer, because the minimizing of distortion, high output changes into and is possible.If GaN is made cover layer, then charge carrier is closed, and worries to become insufficient concerning ultraviolet composition InGaN can take place, has distinguished that charge carrier (particularly hole) can be closed.
In addition, in output this another preferred configuration under the ultraviolet situation, the thickness on the barrier layer in the MQW structure is defined as 6nm~30nm, for well, is preferably 9nm~15nm with 8nm~30nm.Thickness 3nm~the 7nm on the barrier layer in the MQW structure in the past.
If the barrier layer is made such thickness, then do not have the overlapping of wave function, be the MQW structure with it, not as becoming state, can reach high outputization fully with the overlapping multilayer of SQW structure.If the barrier layer surpasses 30nm, then arrive the trap layer from p type layer injected holes before, be trapped in the dislocation defective that becomes non-luminescence center that exists in the barrier layer etc., luminous efficiency descends, so bad.
In addition, by the barrier layer is thickeied, the damage that causes by heat or gas when the trap layer is not easy to be subjected to making layer growth above it, so can reduce damage, in addition, the dopant material (Mg etc.) that can reduce from p type layer spreads to the trap layer, can also obtain to reduce effect and the effect that is added in the deformation on the trap layer in addition.
Embodiment
Below, provide the example that actual fabrication has the GaN series LED of the concavo-convex refractive index interfaces that forms according to above-mentioned form (I), (II).
Embodiment 1
In the present embodiment, shown in Fig. 1 (a),, adopt this crystal face growth method, make concavo-convex refractive index interfaces concavo-convex the imbedding on the Sapphire Substrate according to above-mentioned form (I), actual fabrication the GaN series LED.
The composition that carries out the striated that formed by photoresists on the C surface sapphire substrate is (wide 2 microns, 4 microns of cycles, striped orientation: vertically the determining of striped by Grown GaN serial crystal on substrate, be direction<11-20 〉), carry out the degree of depth with the RIE device and reach the etching that 2 microns, section are square, shown in Fig. 2 (a), obtained the surperficial concavo-convex substrate that is the striated figure.The aspect ratio of striped channel section at this moment is 1.
After photoresists are removed, substrate being installed in the MOVPE device, is being in the atmosphere of main component with nitrogen, makes temperature rise to 1100 ℃, has carried out hot cleaning.Make temperature drop to 500 ℃, as III family raw material trimethyl gallium (to call TMG in the following text) is flow through, as the N raw material ammonia is flow through, making thickness is the GaN low temperature separator growth of 30nm.
Then make temperature rise to 1000 ℃, TMG, ammonia are flow through, make the silane flow mistake, make n type GaN layer (contact layer) growth as dopant as raw material.Shown in Fig. 2 (b), the growth of GaN layer at this moment is from the upper surface of protuberance, the bottom surface of recess, after being crystal that chevron comprises the ridge shape of crystal face and taking place as section, can not form the cavity in recess, is the growth that will totally imbed.
In the crystal plane structure growth course, the moment that is sharp-pointed convex at the complete obiteration of the C of GaN crystal face, top, growth conditions is switched to the dominant condition of cross growth (making growth temperature rising etc.), make the GaN crystal grow into thickness and be 5 microns from the upper surface of Sapphire Substrate till.Be smooth embedding layer in order to obtain upper surface, thickness is necessary to grow into 5 microns.
Then, form n type AlGaN cover layer, InGaN luminescent layer (MQW structure), p type AlGaN cover layer, p type GaN contact layer successively, as emission wavelength is the ultraviolet LED epitaxial substrate of 370nm, in addition, etching processing, the electrode that makes n type contact layer expose usefulness forms, element separates, and made the LED element.
Measured each output of the led chip of taking generally at wafer (when bare chip state, wavelength 370nm, energising 20mA).
In addition, as a comparative example 1, except not forming on the Sapphire Substrate striated concavo-convex, under condition same as described above, form ultraviolet led chip (that is, on flat Sapphire Substrate, forming component structure), measured its output by the low temperature separator.These measurement results as hereinafter described.
Comparative example 2
In this comparative example, adopt the cross growth method of well-known so far use mask, seek to reduce the dislocation density of the GaN serial crystal layer in the above-mentioned comparative example 1.This comparative example 2 is a kind of compositions that do not change when crystal plane structure is grown, the well-known structure of from start to finish mask being imbedded with same composition, do not have the concavo-convex refractive index interfaces that is formed by the crystal plane structure growth, this point and form of the present invention (II) (particularly Fig. 5 (b)) have a great difference.
The C surface sapphire substrate identical with embodiment 1 specification is installed in the MOVPE device, is being in the atmosphere of main component with nitrogen, makes temperature rise to 1100 ℃, carried out hot cleaning.Make temperature drop to 500 ℃, as III family raw material TMG is flow through, as the N raw material ammonia is flow through, making thickness is the GaN low temperature separator growth of 30nm.
Then make temperature rise to 1000 ℃, TMG, ammonia are flow through, make the silane flow mistake, made n type GaN layer growth about 2 microns as dopant as raw material.
From the MOVPE device, take out substrate, carry out the striated that forms by photoresists composition (wide 2 microns, 4 microns of cycles, striped orientation: vertically the determining of striped by the GaN serial crystal, be direction<11-20 〉), in the electron beam evaporation plating device evaporation thickness be the SiO2 of 100nm.With being called the method for peeling off, photoresists are removed, obtained the SiO2 mask of striated.
Recharge in the MOVPE device, make the growth of n type GaN crystal contact layer.Growth conditions and embodiment 1 are roughly the same, from the growth of the exposed portions serve (non-masks area) of GaN crystal, after being crystal that chevron comprises the ridge shape of crystal face and taking place as section, making growth be performed until direct will totally imbedding and reach smooth till.Be necessary when imbedding along the about 5 microns GaN crystal of C direction of principal axis growth thickness.
Then, form n type AlGaN cover layer, InGaN luminescent layer (MQW structure), p type AlGaN cover layer, p type GaN contact layer successively, as emission wavelength is the ultraviolet LED epitaxial substrate of 370nm, in addition, etching processing, the electrode that makes n type contact layer expose usefulness forms, element separates, and made the LED element.
Measured each output of the led chip of taking generally at wafer (when bare chip state, wavelength 370nm, energising 20mA).Measurement result as hereinafter described.
Embodiment 2
In the present embodiment, shown in Fig. 1 (b),, adopt this crystal face growth method to form the concavo-convex crystal plane structure that constitutes by AlGaN, it imbedded, make concavo-convex refractive index interfaces with GaN according to above-mentioned form (II), actual fabrication the GaN series LED.
Identical with embodiment 1, formation is the concavo-convex of striated figure on the C surface sapphire substrate, it is installed in the MOVPE device, and be in the atmosphere of main component with nitrogen, make temperature rise to 1100 ℃, carried out hot cleaning.Make temperature drop to 500 ℃, as III family raw material TMG is flow through, as the N raw material ammonia is flow through, making thickness is the GaN low temperature separator growth of 30nm.
Then make temperature rise to 1000 ℃, TMG, ammonia flow through as raw material, make the about 100nm of GaN layer growth after, trimethyl aluminium (TMA) is added in the III family raw material, make the AlGaN growth.Shown in Fig. 2 (b), the growth of AlGaN/GaN layer is from the upper surface of protuberance, the bottom surface of recess, after being crystal that chevron comprises the ridge shape of crystal face and taking place as section, do not form emptyly in recess and grows.
In the crystal plane structure growth course, the moment that is sharp-pointed convex at the complete obiteration of the C of AlGaN crystal face, top, growth conditions is switched to n type GaN growth and the dominant condition of cross growth, make n-GaN crystal (contact layer) grow into thickness and be 5 microns from the upper surface of Sapphire Substrate till.
Identical with the foregoing description 1, on said n type GaN contact layer, form n type AlGaN cover layer, InGaN luminescent layer (MQW structure), p type AlGaN cover layer, p type GaN contact layer successively, as emission wavelength is the ultraviolet LED epitaxial substrate of 370nm, in addition, etching processing, the electrode that makes n type contact layer expose usefulness forms, element separates, and made the LED element.
Measured the result of each output of the led chip of taking generally at wafer (when bare chip state, wavelength 370nm, energising 20mA), as hereinafter described.
Embodiment 3
In the present embodiment, shown in Fig. 4 (c), according to above-mentioned form (III), adopt this crystal face growth method to form the concavo-convex crystal plane structure that constitutes by AlGaN, use 50 couple's who constitutes by the super lattice structure of AlGaN/GaN Bragg reflection layer that it is covered, make concavo-convex multilayer refractive index interfaces, actual fabrication the GaN series LED.
Identical with embodiment 1, formation is the concavo-convex of striated figure on the C surface sapphire substrate, it is installed in the MOVPE device, and be in the atmosphere of main component with nitrogen, make temperature rise to 1100 ℃, carried out hot cleaning.Make temperature drop to 500 ℃, as III family raw material TMG is flow through, as the N raw material ammonia is flow through, making thickness is the GaN low temperature separator growth of 30nm.
Then make temperature rise to 1000 ℃, TMG, ammonia are flow through, shown in Fig. 4 (c), make the GaN layer, be the crystal growth that chevron comprises the ridge shape of crystal face as section from the upper surface of protuberance, the bottom surface of recess as raw material.
In the crystal plane structure growth course, the moment that is sharp-pointed convex at the complete obiteration of the C of GaN crystal face, top, Al0.2Ga0.8N (along C direction of principal axis 37nm)/GaN (along C direction of principal axis 34nm) is grown 50 pairs, after this growth conditions is switched to n type GaN growth and the dominant condition of cross growth, make n-GaN crystal (contact layer) grow into thickness and be 5 microns from the upper surface of Sapphire Substrate till.
Identical with the foregoing description 1, on said n type GaN contact layer, form n type AlGaN cover layer, InGaN luminescent layer (MQW structure), p type AlGaN cover layer, p type GaN contact layer successively, as emission wavelength is the ultraviolet LED epitaxial substrate of 370nm, in addition, etching processing, the electrode that makes n type contact layer expose usefulness forms, element separates, and made the LED element.
Measured each output of the led chip of taking generally at wafer (when bare chip state, wavelength 370nm, energising 20mA).
The foregoing description 1~3, comparative example 1,2 measurement result (mean value) separately is as follows.
Embodiment 1:14mW.
Embodiment 2:14.5mW.
Embodiment 3:15mW.
Comparative example 1:6mW.
Comparative example 2:7mW.
By concavo-convex refractive index interfaces being attached to the below of luminescent layer, can be fetched into the external world more as can be known from above-mentioned, improve the output of light-emitting component in the part that element internal has been eliminated lateral light.
Embodiment 4
In the present embodiment, be manufactured with the GaN series LED of quantum well structure, the layer between luminescent layer and the crystalline substrates is made the form that only is made of GaN.
The composition that carries out the striated that formed by photoresists on the C surface sapphire substrate is (wide 2 microns, 4 microns of cycles, striped orientation: vertically the determining of striped by Grown GaN serial crystal on substrate, be direction<11-20 〉), carry out the degree of depth with the RIE device and reach the etching that 2 microns, section are square, obtained to be the concavo-convex substrate that constitutes of striated figure by the surface.The aspect ratio of striped channel section at this moment is 1.
After photoresists are removed, substrate is installed in the MOVPE device, in hydrogen atmosphere, makes temperature rise to 1100 ℃, carried out hot etching.Make temperature drop to 500 ℃, as III family raw material trimethyl gallium (to call TMG in the following text) is flow through, as the N raw material ammonia is flow through, making thickness is the GaN low temperature separator growth of 30nm.Only on the bottom surface of the upper surface of protuberance, recess, formed this GaN low temperature separator.
Then make temperature rise to 1000 ℃, as raw material TMG, ammonia are flow through, make plain GaN layer after the time that is equivalent to 2 microns of growing on the smooth substrate, make growth temperature rise to 1050 ℃, having grown on smooth substrate is equivalent to 4 microns time.Under the situation of having carried out growth under this condition, shown in Fig. 2 (b), the growth of GaN layer at this moment grows into section and is the ridge shape that chevron comprises crystal face from the upper surface of protuberance, the bottom surface of recess.After this by the change growth temperature, promote two-dimensional growth, carry out planarization.
Then, (emission wavelength 380nm, In composition approach zero to form n type GaN contact layer (cover layer), thickness successively and be the InGaN trap layer of 3nm, be difficult to measure), thickness is the multi layer quantum well layer in 3 cycles that are made of the GaN barrier layer of 6nm, the p type AlGaN cover layer that thickness is 30nm, the p type GaN contact layer that thickness is 50nm, as emission wavelength is the ultraviolet LED wafer of 380nm, in addition, carry out electrode formation, element separation, made the LED element.
Measured each output of the LED element of taking generally at wafer (when bare chip state, wavelength 380nm, energising 20mA).
In order to compare, on the Sapphire Substrate of not carrying out concavo-convex processing, under condition same as described above, form ultraviolet led chip (comparative example 1), measured its output.
In addition, common ELO with basis material (after temporarily having formed the GaN layer on the smooth Sapphire Substrate, having formed the basis material of masking layer) on, under condition same as described above, form ultraviolet led chip (comparative example 2), measured its output.
Utilize cathodoluminescence to measure the mean value of the dislocation density in the LED wafer, the life-span of the accelerated test of carrying out with the mean value of the result that measures, output and with 80 ℃, 20mA (dropping to time of 80% of initial output) is shown in Table 1.
Table 1
|
Dislocation density is (individual/cm
2)
|
Output (mW) |
Life-span (hr) |
Embodiment |
8×10
7 |
10 |
1300 |
Comparative example 1 |
1×10
9 |
3 |
800 |
Comparative example 2 |
8×10
7 |
6 |
1300 |
As known from Table 1, can seek to reduce dislocation density, long lifetime, high outputization in the present embodiment.From the result of comparative example 2 as can be known, adopt ELO method,, export lower than present embodiment though can seek the reduction of dislocation density equally as one of dislocation density reduction method.This can think the crystalline difference that the existence at regrowth interface causes.In addition, because dislocation density is also big on common substrate, so compare with present embodiment, the output life-span is all bad.
Embodiment 5
In the present embodiment, with n type Al
0.1Ga
0.9The N cover layer is arranged between the n type GaN contact layer and InGaN trap layer of embodiment 4, in addition, under the condition identical with embodiment 4, forms ultraviolet led chip, has measured its output.
Shown in top table 1, the element of embodiment 4 is output as 10mW, and different therewith, the element of present embodiment is output as 7mW.According to this result as can be known, the element of present embodiment is compared with comparative example 1,2, though output has improved, shown in embodiment 4, owing between InGaN trap layer and the crystalline substrates AlGaN layer being got rid of, improves so output is further.
Embodiment 6
In the present embodiment, carried out investigation about the effect of the qualification of the barrier layer thickness of MQW structure and the experiment of effect.
The thickness on each barrier layer of the MQW structure among the embodiment 4 is respectively: style 1:3nm, style 2:6nm, style 3:10nm, style 4:15nm, style 5:30nm has similarly made the GaN series LED with the foregoing description 4 in addition.These all belong to light-emitting component of the present invention.
Under condition same as described above, measured the output of ultraviolet LED chip.
The mean value of these measurement results is as follows.
Style 1:2mW
Style 2:7mW
Style 3:10mW
Style 4:8mW
Style 5:5mW
In addition, under low temperature 4K, these styles have been carried out the result of photoluminescence determination, in table 1, near 3.2eV, observed from the light of Mg emission.This can think because the barrier layer is thin, so Mg can be from the result of p type layer diffusion.
From above-mentioned result as can be known, when the thickness on barrier layer is 6nm~30nm, more can improve high outputization.