SIMULTANEOUS MEASUREMENT METHOD FOR CURVATURE OF BOTH SIDE SURFACES AND REFRACTIVE INDEX DISTRIBUTION OF LENS
The present invention refers to both sides opposed to each other surface curvature surface number 1 number 2 pushed up the specimen lenses with surface curvature, said lens, and a pair of side surface different refractive indexes from each other a liquid which is disposed to contact an and, number 1 wavelength optical number 1, number 2 wavelength optical number 2, number 3 wavelength number 3 at or light respectively, based with photo with and photo number 1 number 2, number 1 number 2 surface curvature said lens acquires each function surfaces curvature, said curvature functions and number 3 photo with the lens by the for measuring the refractive index profile, shape curvature controls of simultaneously measuring establishing and releasing recording protection on magnetic relates to method. Modern mold art power generation is reduced in size by injection mass optical device which, thereby and vinyl ether and maleic anhydride represented by was of optical instrument, aspheric injection by unit is off and reduced size. Such injecting operation of optical instrument in 3 for heat-dimensional shape which merits, preferably cooling the refractive index changes periodically of the material at the process is especially. Injection optics accurate optical function of from the index of refraction of the material in order of a value of the metric design shape which must correspond to at, thus, accurate injection of optical instrument 3, a refractive index value and code input mode using his/her-dimensional shape is with an aldehyde in the presence of. Constitution: much the method for measuring the refractive index. Most can be measured at a high precise [...] the method is method using and interference (ellipsometry) method. General [...] method of nucleic acid (ellipsometry) method at a position is interfered with the in-the measure the refractive index. Sample 2 dimensional refractive index for meanihgfui measurement using 2 dimensional scanning method for measuring the refractive index dimensional 2 again the first. However 2 dimensional scanning method for measuring the refractive index using measured method. and a fixed very long time. During method interference to very 2 dimensional scanning method to and once without using a 2 dimensional phase information is next race is interferometer (Interferometer) method. Identifying shape of lens generally beam onto in order are supplied to the inside of the optical method, interferometer widely used reflectometer (Reflectometer). At of light reference with the light a transmission interferometer for measuring the interference for the each using the refractive index of lens transmitted light, contains information such as thickness of wet liquid to flow down. Patent number 10-1245607 registration station call device relates to measuring establishing and releasing recording protection on magnetic and method measuring establishing and releasing recording protection on magnetic, the method measuring establishing and releasing recording protection on magnetic is (object of inspection) for water of a human subject, such as a lens having an index of refraction number 1 is immersed for obtained from number 1 measures the wavefront transmission number 1, number 2 product subject again obtained from number 2 having an index of refraction is immersed for to measure a wavefront transmission number 2, number 1 number 2 and measurement result transmitting wave-front by measurement result transmitting wave-front of flexible object to for obtaining establishing and releasing recording protection on magnetic, measuring method is provided to, number 1 of flexible object media includes a number 2 medium and low refractive index than 0.01 or more in a key conditions of e.g., the should, accurate temperature measurements are easy do not go. Recently using interferometer method for measuring the shape of a of the lens in, lens, a refractive index same lens and directly on one face an oil a liquid-are set up, and having different indices of refraction lens and material is provided which has excellent adhesivity after placing an object liquid and having different indices of refraction liquid light in the direction irradiation of the lens curvature shape for identifying the support study reported. However such method a shape for one side of the lens, as it is hereby possible to know to obtain the other plane having identical lens determiner must measuring method such as an absentee ID stored by operating an identical measuring condition. is shown. Thus the present invention refers to having both-sided lens shape curvature distribution refractive index from that of the controls simultaneously measuring curvature. method for simultaneously measuring refractive index from that of the shape. Is the problem of the present invention, having both-sided lens shape curvature distribution refractive index from that of the controls simultaneously measuring method for simultaneously measuring curvature of refractive index from that of the shape by a rope. provides. If the second voice is inputted, the present invention on the other side, both sides opposed to each other surface curvature surface number 1 number 2 pushed up the specimen lenses with surface curvature, said lens, and a pair of side surface different refractive indexes from each other a liquid which is disposed to contact an and, number 1 wavelength optical number 1, number 2 wavelength optical number 2, number 3 wavelength number 3 at or light respectively, based with photo with and photo number 1 number 2, number 1 number 2 surface curvature said lens acquires each function surfaces curvature, said curvature functions and number 3 photo with the lens by the for measuring the refractive index profile, shape curvature controls of simultaneously measuring establishing and releasing recording protection on magnetic relates to method. To solve the, the present invention refers to, number 1 of lens of a subject toward a curvature surface which makes contact with liquid number 1, number 2 number 2 surface curvature of said lens is contact liquid, said liquid and number 1 number 2 liquid and having different indices of refraction from the index of refraction of the lens while has a refractive index from different, different lens said irradiating light of a wavelength controls for measuring the establishing and releasing recording protection on magnetic shape curvature, shape curvature controls in method of simultaneously measuring establishing and releasing recording protection on magnetic, parallel to an optical axis of said lens having a wavelength number 1 number 1 number 1 light said lens is irradiated via liquid, said another in a light path of an optical axis of lens positions of to obtain with photo number 1, number 1 photo with acquisition step; said lens parallel to an optical axis of light having a wavelength number 2 number 1 number 2 said lens is irradiated via liquid, said another in a light path of an optical axis of lens positions of to obtain with photo number 2, number 2 photo with acquisition step; number 888 0000667888 parallel to an optical axis of said lens having a wavelength number 1 number 3 light said lens is irradiated via liquid, said another in a light path of an optical axis of lens positions of to obtain with photo number 3, number 3 photo with acquisition step; using said number 2 photo withwith and photo said number 1 number 1 number 2 function and curvature surfaces for obtaining function surfaces curvature, curvature function calculation step; said number 3 photo with, said number 2 function and surfaces curvature said number 1 using a function for surfaces curvature, for obtaining said lens refractive index profile, establishing and releasing recording protection on magnetic calculation step; device using the same comprise the following is characterized in that the. Said lens curvature surface curvature surface number 2 number 1. insulator therebetween. In calculation step function curvature, number 1 number 2 function and surfaces curvature curvature surfaces function, (Stage, wherein, ΔΦ1 the number 1 photo with difference which, ΔΦ2 the number 2 photo with difference, L1 (x, y) the number 1 curvature surfaces is a function which, L2 (x, y) the number 2 curvature surfaces function and, n1 the number 1 liquid refractive index of is, n2 the number 2 liquid refractive index of is, nL of the lens refractive index and, λ1 the number 1 wavelength is, λ2 by wavelength the number 2) . Calculated by using the. In calculation step function curvature, number 1 number 2 function and surfaces curvature curvature surfaces delimiting region function. obtained by X-ray diffraction method using (least square method). Number 1 prior to step acquisition with photo, for detecting average refractive index of said lens, can further include detecting average refractive index, the average refractive index of said lens, spectrometer (Spectrometer) or sent to the ellipse is detected by (Elipsometer). A calculation step establishing and releasing recording protection on magnetic, refractive index distribution (Stage, λ3 the number 3 wave length of an, ΔΦ2 (λ3) the number 3 wavelength number 3 light when irradiated of number 3 photo with difference, n1 (λ3) the number 1 of liquid number 3 wavelength according to refractive index and, n2 (λ3) the number 2 of liquid number 3 wavelength according to refractive index and, nL (λ3) according to wavelength number 3 of the lens by refractive index) . Calculated by using the. Furthermore, the present invention refers to, of the present invention controls curvature shape using method of simultaneously measuring establishing and releasing recording protection on magnetic, controls through the measuring region establishing and releasing recording protection on magnetic shape curvature even device is connected to the semiconductor layer.. Furthermore, controls of the present invention through the measuring region establishing and releasing recording protection on magnetic shape curvature a device, wavelength conversion light source consisting of, light source; light source incident light for from 2 one beam dividing into a multiple, number 1 empty distributor ; empty distributor in number 1 2 one beam divided beams one beam, is incident on a lens collimating number 1, mainly formed with light when illuminated, diaphragm issue having a unit for the inner, sealing lens by the decomposer to intermediate diaphragm bringing up for discussion, inserted is arranged to, diaphragm bringing up for discussion improving his/her posture which is introduced liquid number 1, has the first diaphragm bringing up for discussion that is incorporated into the liquid is the number 2, case inserted water subject; empty distributor 2 number 1 in beam divided one beam beam of the other of, number 2 collimating lens but does reflect the incident light a, number 1 mirror; a liquid crystal layer is formed case inserted water subject and reflect the, number 2 mirror; number 2 the resist layer is the light reflected on the reflective mirror in which the imaging lens; and light reflected from the mirror number 2 in which the imaging lens is is incident on a through, number 1 is light is incident reflected from the mirror, emits light into a charge coupled device, number 2 empty distributor ; device using the same comprise the following is characterized in that the. Case inserted water subject, said lens curvature surface which makes contact with liquid number 1 number 1, number 2 number 2 surface curvature of said lens is contact liquid, said liquid and number 1 number 2 liquid and having different indices of refraction from the index of refraction of the lens while liquid and number 1 and having different indices of refraction than the other liquid number 2. made to. Wavelength number 1 wavelength so as to fall within a different light source, wavelength number 2, number 3 consisting of incorporated light at wavelengths equal to or. Number 1 number 2 and collimating lens collimating lens an incident beam light parallel light generated on the basis of an, light emitted in collimating lens number 1 diameter is made to each other to conform to the diameter of said lens. An optical charge coupled device CCD detector or can be one camera. Charge coupled device from an Image detected in said lens curvature surface number 1 number 2 curvature of the optic surfaces, said lens. obtained refractive index profile. An arithmetic processing part a number 1 wavelength, wavelength number 2, number 3 the order of column wavelength predetermined light source control to eject light having a wavelength for generating and outputting sound and video transmitting and light source driving unit, said light source control signal according to the light source drive is driven so that, light source or optical number 1 wavelength number 1, number 2 wavelength optical number 2, number 3 wavelength number 3 light emitted from the light guide unit. An arithmetic processing part a optical number 1, number 2 optical, according to optical number 3, charge coupled device to receive the registered Image detected in, said lens curvature surfaces function number 1 number 2 surface curvature, (Stage, wherein, ΔΦ1 the number 1 photo with difference which, ΔΦ2 the number 2 photo with difference, L1 (x, y) the number 1 curvature surfaces is a function which, L2 (x, y) the number 2 curvature surfaces function and, n1 the number 1 liquid refractive index of is, n2 the number 2 liquid refractive index of is, nL the lens average refractive index of and, λ1 the number 1 wavelength is, λ2 by wavelength the number 2) By using a.. An arithmetic processing part said lens a refractive index profile (Stage, λ3 the number 3 wave length of an, ΔΦ2 (λ3) the number 3 wavelength number 3 light when irradiated of number 3 photo with difference, n1 (λ3) the number 1 of liquid number 3 wavelength according to refractive index and, n2 (λ3) the number 2 of liquid number 3 wavelength according to refractive index and, nL (λ3) according to wavelength number 3 of the lens by refractive index) By using a.. The present invention refers to, simultaneously measuring establishing and releasing recording protection on magnetic shape curvature controls method using shape curvature controls of simultaneously measuring refractive index from that of the. the. Of the present invention controls a method of simultaneously measuring establishing and releasing recording protection on magnetic shape curvature, both sides opposed to each other surface curvature surface number 1 number 2 pushed up the specimen lenses with surface curvature, said lens, and a pair of side surface different refractive indexes from each other a liquid which is disposed to contact an and, number 1 wavelength optical number 1, number 2 wavelength optical number 2, number 3 wavelength number 3 at or light respectively, based with photo with and photo number 1 number 2, number 1 number 2 surface curvature said lens acquires each function surfaces curvature, said curvature functions and number 3 photo with the lens by the measures the refractive index profile, curvature controls. simultaneously measuring distribution refractive index from that of the shape. The present invention refers to simple, ferro-and ready for use, compared to prior art also relatively high accuracy. Figure 1 shows a curvature shape refractive index from that of the controls according to an embodiment of the present invention also simultaneously measuring distribution method of order. Figure 2 shows a measuring method applying placed and the second sheet is moved Figure indicating the edge face of a spectacle lens is surface of Figure 1. Figure 3 of the present invention controls shape curvature method of simultaneously measuring establishing and releasing recording protection on magnetic device is one example of a simple manner by means of measuring is applied. Consults a hereinafter drawing shape curvature both sides the present invention according to detail the described a method for simultaneously measuring establishing and releasing recording protection on magnetic. The present invention refers to lens, in particular injection molding optical element, injection molded ophthalmic lenses, plastic controls method relates to simultaneously measuring establishing and releasing recording protection on magnetic shape curvature, hereinafter, of for the sake of convenience lens: a buffer. Figure 1 shows a curvature shape according to an embodiment of the present invention also controls and order of method for simultaneously measuring establishing and releasing recording protection on magnetic, Figure 2 shows a measuring method applying placed and the second sheet is moved is surface of Figure 1 indicating that the edge face of a spectacle lens. A probe or an inspection object lens (10) preparing for the (S1), prepared lens (10) average refractive index of. measuring the contact (Elipsometer) sent to the ellipse. Optionally (Spectrometer) spectrometer instead sent to the ellipse using the lens (10) average refractive index of.. Through, a refers to in 1 expressions, lens number 1 wavelength according to refractive index nL (λ1) and, lens number 2 wavelength according to refractive index nL (λ2) the next step detects. In the present invention a probe or an inspection object lens (10) has door 2 as shown in number 1 opposite each other in the direction of the optical axis curvature surface (11) and number 2 curvature surface (12) has, the present invention refers to number 1 curvature surface (11) and number 2 curvature surface (12) lenses with (10) both sides of. both shape curvature. [...] specific polarization state light having a lens (10) is made incident on the refracting optical polarizing that is outer change of state of the analyzing device for measuring lens in having a refractive index (10) average refractive index of measuring is a universal device. Number 1 by an improved light emission yield different liquid (20) and number 2 liquid (30) for preparing the (S2). Wherein, liquid number 1 (20) and number 2 liquid (30) has a lens (10) different transient refractive index of film have a refractive index. Number 1 liquid (20), number 2 liquid (30) and lens (10) is the refractive index of the same are correct for processing using expressions the after alcoholic beverage it will do by being made of plastic, it not. Number 1 liquid (20) and number 2 liquid (30) to advance to a lens (10) are arranged each contact plane of a (S3). I.e., lens (10) of number 1 curvature surface (11) the liquid number 1 (20) is arranged on the lens (10) of curvature surface number 2 (12) the number 2 liquid (30) and a pair of the lens (10) so as to contact a a. Wherein, liquid number 1 (20) and number 2 liquid (30) for each lens (10) free from contact side to the output face and serving when separated liquid number 1 (20) a light source and the aperture to-wise illuminated liquid number 1 (20) and the lens (10) inactivates path in spaced locations thereof and an is. there is not experiments. The lens (10) and a number 2 liquid (30) spaced when dispersed form and transmitted to the other.. Number 1 liquid (20) side lens from an (10) parallel to the optical axis of number 1 having a wavelength number 1 by irradiation with light, another in a light path of an optical axis positions of. to obtain course shielding number 1 (S4). Using (Mach-Zehnder Interferometer) on which the second photoresist layer is of the interferometer type [...] wavelength laser light source is divided into two is used as reference beam one object beam inputted from the beam at least one other of which said number 1 toward object beam inputted from the beam by utilizing the liquid (20) and number 2 liquid (30) lens disposed is brought into contact (10) provided with a. Then liquid number 1 (20) side lens from an (10) parallel to the optical axis of number 1 irradiates the light having a wavelength number 1. Number 1 lens measured diameter light (10) diameter of number 1 and conform to a light lens (10) parallel to the parallel light. Number 1 wherein lens light (10) to an optical axis of parallel to the smoker (x, y) coordinate light having a circulation promoted. assembly of. Number 1 in which the imaging lens light traversing the lens and lens in a shape of lens in phase change according to and digitized by an a/d (Charged Coupled Device) a charge coupled device Image. Lens (10), from the light irradiated to Image is number 1 rotates in the opposite direction for coordinates (x, y). to obtain course shielding number 1. Number 1 (x, y) shielding course are coordinates for the light path the look (OPD) and a lens (10) in the ray path optical axis center of the look (OPD1) circulation promoted. difference. I.e., number 1 photo with columnwith difference in a landscape obtained using the wavelength number 1 which, lens (10) in the ray path optical axis center of the look (OPD1) is again 2000, lens (10) and a center axis of the light path wavelength number 1 passing circulation promoted. (LL) of the look-up table. Lens (1) passes a and the remaining portion of a light path wavelength number 1 (OPD) and a, lens (10) passing light path wavelength number 1 and a center axis of the light path (LL) the difference between the. difference optical path number 1. Performance to the surface of glass 320, entities, groups, or with an optical path length so as is light, thickness × refractive index is represented. Topological Image from phase value is the port scan test part finds opened. difference optical path value is the phase. Generally, topological Image a phase value the price which is an enemy repeated-up height trial contour with respect to a plane, real, fabricating the basic form of the acid phase decomposition (phase unwrapping) if there is the specific photo with found by actual measurement in a step. I.e., charge coupled device (CCD) (200) imaged topological Image values from the shape of the phase of the lens is determined, for example, using the same type of wavefront circle center of the input wavefront circle it can be center of the lens which, these phase from phase value is and the, photo with it kicks phase value is phase unwrapping is found by actual measurement in a if there is the specific. Number 1 liquid (20) parallel to the optical axis from a lens light number 2 (10) the light and blue light onto the, another in a light path of an optical axis positions of. to obtain with photo number 2 (S5). I.e., liquid number 1 as well as step S4 (20) from a parallel to the optical axis by irradiation with light number 2 number 2 photo with. to obtain. Number 2 number 1 number 2 light the wavelength light use an different wavelength and number 1. Number 1 liquid (20) parallel to the optical axis from a lens light number 3 (10) the light and blue light onto the, another in a light path of an optical axis positions of. to obtain with photo number 3 (S6). I.e., liquid number 1 as well as step S4 (20) from a parallel to the optical axis by irradiation with light number 3 with photo number 3. to obtain. Number 3 the wavelength number 1 number 2 number 1 number 3 light light light wavelength and use an different wavelength and number 2. Lens (10) of number 1 curvature surface (11) and number 2 curvature surface (12) is found by actual measurement in a curvature of function (S7). S4 and S5 obtained by bisecting step with and photo number 1 number 2 photo with based the lens (10) of number 1 curvature surface (11) and number 2 curvature surface (12) which are obtained function curvature of, the light via at least two lenses function curvature (10) curvature of. shape. Each curvature surface (11,12) the equation having the can be despreading block 1. Wherein, ΔΦ1 which the number 1 photo with difference, ΔΦ2 the number 2 photo with difference, L1 (x, y) the z axis according to number 1 curvature surface (11) is a function which curvature of, L2 (x, y) the z axis according to number 2 curvature surface (12) and function curvature of, n1 is the refractive index of liquid number 1, n2 refractive index of liquid is the number 2, nL and refractive index of the lens, λ1 wavelength is the number 1, λ2 wavelength is the number 2. I.e., for each wavelength number 1 known refractive index liquid, the second liquid number 2, number 1 of liquid number 1 wavelength according to refractive index n1 (λ1) and, wavelength number 1 number 2 of liquid according to refractive index n2 (λ1) the while known value. Lens number 1 wavelength according to refractive index nL (λ1) and, lens number 2 wavelength according to refractive index nL (λ2) the, number 1 number 2 wavelength and the light source light at wavelengths equal to or from the center of lens when it will enter public life average refractive index for measuring the refractive index to (i.e., sent to the ellipse or spectrometer). as measured by means of a. Expressions 1 to, S4 and S5 measured and with photo number 1 obtained through (ΔΦ1) and number 2 photo with (ΔΦ2), refractive index of liquid number 1 (n1) refractive index of liquid number 2 and (n2), lens (10) refractive index of (nL), number 1 wavelength (λ1) and number 2 wavelength (λ2) value after each adjustor and the, using AX=B delimiting region in the form of the optical (least square method) is a function curvature L1 (x, y) and L2 (x, y) can obtain a.. L1 (x, y) and L2 (x, y) the z axis according to number 1 curvature surface (11) and number 2 curvature surface (12) because the function curvature of (x, y) adjustor and the coordinate value calculates the final of the lens curvature surface number 1 (11) and number 2 curvature surface (12) simultaneously shape curvature of is determined. If lens (10) arranged on the both surfaces of a number 1 liquid (20) and number 2 liquid (30) the same refractive index to the use of the L1 (x, y) and L2 (x, y) non-respective functions L1 (x, y) +L2 (x, y) the target a function of respective value can't found out simultaneously. Number 1 number 2 curvature curvature surface and the optic surfaces to obtain an equation 1 an inductively as follows. I.e., to obtain a process 1 expressions as follows. First, of a specified wavelength rays or laser beams such that is found by actual measurement in a with photo in state. I.e., curvature surface number 1, number 2 curvature surfaces function and, liquid number 1, number 2 liquid and by using the refractive index photo with 2 and a equal expressions determined. The modified liquid and number 1 number 2 container consisting of the liquid, in the case of no lens in each of the medicine packages in the and the lenses are made by a difference in the detection when numerical formula is. Expressions, such as again using has 2 may change the 3. At which they are transmitted communicates information, of a specified wavelength light is any one of laser light in a state that a photo with, expressions using 3. and obtaining. Expressions 3 4 has again using in formula calculated using, when irradiated light wavelength number 1 number 1 of. dietary provided with photo number 1. Wherein, λ1 the number 1 wave length of an, ΔΦ2 (λ1) the number 1 when irradiated light of wavelength number 1 number 1 photo with difference, n1 (λ1) according to wavelength number 1 the number 1 of liquid refractive index and, n2 (λ1) refractive index according to the wavelength number 1 and number 2 of liquid, nL (λ1) is refractive index according to wavelength number 1 of the lens. Expressions 3 5 has again using number 2 in formula calculated using wavelength when irradiated light of number 2 number 2 photo with. dietary provided. Wherein, λ2 the number 2 wave length of an, ΔΦ2 (λ2) the number 2 number 2 wavelength with difference photo number 2 of when irradiated light, n1 (λ2) of liquid refractive index according to the number 1 and number 2 wavelength, n2 (λ2) wavelength according to the number 2 number 2 of liquid refractive index and, nL (λ2) is refractive index according to wavelength number 2 of the lens. Expressions 4 and a 5 expressions, expressions expressions and 6, such as 7, may organize his or her. Expressions for 7 expressions and 6 when cleared matrix can cause 1 expressions. A common electrode substrate are serially and plurality of liquid (20,30) and a, plurality of long wavelength is projected onto the disk after demonstrated that despite by means of the light beam, by wirings between internal 1 expressions value thereof, calculated lens (10) having both-sided curvature shape is determined simultaneously. Next expressions in formula calculated using 3, when irradiated light number 3 wavelength number 3 of. dietary provided with photo number 3. Wherein, λ3 the number 3 wave length of an, ΔΦ2 (λ3) the number 3 of when irradiated light number 3 wavelength number 3 photo with difference, n1 (λ3) the number 1 and number 3 of liquid refractive index according to wavelength, n2 (λ3) refractive index according to the number 2 and number 3 wavelength of liquid, nL (λ3) is refractive index according to wavelength number 3 of the lens. Expressions 1, a charge amount determined by curvature function L1 (x, y) and L2 (x, y) 2005 by wirings between internal lens refractive index profile 8 nL (λ3). obtained (S8). The aforementioned, to amplify AX=B delimiting region in the form of performance to the surface of glass, generally, data observed, example, (x1, y1), ... , (xn, yn) box y=ax+b can form fit into at 1 a (fitting) when, for a given data closest to a a, b use of delimiting region found out. I.e., a delimiting region satisfying the conditional expression, and the following equations involving, in finding the b.. Represented by eigendecompositions same. off at the first and the second. At this time, but not present 304 A the reversal of a command for forming the pseudo inverse as a X surface can be calculated as follows. OpenCV or Matlab calculation pseudo inverse of matrix wherein such as ID tool. Figure 3 of the present invention controls shape curvature method of simultaneously measuring establishing and releasing recording protection on magnetic device example of a simple manner by means of measuring is applied, light source (100), empty distributor number 1 (120), lens (collimating) collimating number 1 (125), number 2 collimating lens (127), number 1 mirror (130), case inserted water subject (140), number 2 mirror (150), number 2 empty distributor (160), in which the imaging lens (88 80001047888), charge coupled device (200), an arithmetic processing part (200) includes to 6:4.. Light source (100) a wavelength-converting light source may be used in, optionally has an internal calculating unit where (200) by control of, said wavelength is in a range from light source may be varied. Light source (100) at least different 3 major surfaces, i.e., wavelength number 1, number 2 wavelength, light at wavelengths equal to or number 3. a mold having a number of cavities. Number 1 empty distributor (120) comprises a light source (100) from incident light for divided one beam 2, one beam is used for number 1 collimating lens (125) through subject case inserted water (140) for emanating light from a light-and, other one beam is used for number 2 collimating lens (127) through the mirror number 1 (130) emits. I.e., number 1 empty distributor (120) in 2 one beam divided beams one beam is used for, by surface (measuring light), number 1 collimating lens (125) through subject case inserted water (140) is incident, subject case inserted water (140) the light emitted to number 2 mirror (150) are transferred in, number 2 mirror (150) in which the imaging lens the light reflected on the reflective (155) through empty distributor number 2 (160) is transferred to a. Furthermore, number 1 empty distributor (120) beams divided one beam 2 in other one beam is used for, by reference beam (reference beam), number 2 collimating lens (127) through the mirror number 1 (130) are transferred in, number 1 mirror (130) the light reflected on the reflective empty distributor number 2 (160) is transferred to a. Number 1 collimating lens (125) empty distributor the number 1 (120) distributed from an one light is incident is, light parallel light generated on the basis of an, parallel light is case inserted water a subject (140) side to the light output face. The light lens is measured diameter (10) diameter of equal. Number 2 collimating lens (127) empty distributor the number 1 (120) of the other of distributed from an which light is incident thereon, light parallel light generated on the basis of an, mirror number 1 light guide parts are installed at both ends (130) side to the light output face. Case inserted water subject (140) comprises a light source (100) mainly formed with light when illuminated from, diaphragm issue inside (145) having a unit for, diaphragm issue (145) lens by the decomposer to intermediate (10) for sealing, is arranged to inserted, diaphragm issue (145) one side of the number 1 liquid (20) while the agent is placed, diaphragm issue (145) the battery assembly and number 2 liquid (30) so that when is introduced. In which the imaging lens (155) the number 2 mirror (150) is light is incident reflected from the, charge coupled device (200) to a + 2c provided with means for.. Number 2 empty distributor (160) meet at a 2 optical (i.e., number 2 mirror (150) reflected in the in which the imaging lens (155) according to the amount of the reflected light and number 1 mirror (130) the light reflected on the reflective) is charge coupled device (200) and rotation of the Image to form a registered Image, same (Charged Coupled Device) charge coupled device (or light detector or CCD camera) (200) to the exciting. I.e., charge coupled device (200) has a lens (10) lens surface shape according to charge coupled device Image phase change (200) a and digitized by an a/d. Charge coupled device (200) detected in an Image projected, empty distributor number 2 (160) at a 2 encounters of optical path of light from being leaked, is is generated on a interference fringe. Charge coupled device (200) detected in an Image projected an arithmetic processing part (200) is transmitted to. An arithmetic processing part (200) the measuring device or the overall control and, charge coupled device (200) which is detected in the analyzing the images. An arithmetic processing part (200) according to the predetermined order, i.e., wavelength number 1, number 2 wavelength, the order of column wavelength number 3 predetermined light source control to eject light having a wavelength for generating and outputting sound and video light source driving part (105), and transmits the. The, light source driving part (105) is driven so that light source (100) wavelength optical number 1 the number 1, number 2 wavelength optical number 2, number 3 are the light to be emitted to the wavelength number 3, number 1 optical, optical number 2, number 3 optical, in accordance, charge coupled device (200) which is detected in the images are an arithmetic processing part (200) is transmitted to. An arithmetic processing part (200) from these images lens by the decomposer by the 1 expressions (10) number 1 of curvature surface (11) and number 2 curvature surface (12) curvature of the optic, number 1 exciter obtained curvature surface (11) and number 2 curvature surface (12) 8 2005 by wirings between internal lens refractive index profile nL (λ3). obtained. Defined although the present invention refers to the resulting structured materials, examples of the embodiment but is described by drawing, limited aspect of the present invention refers to said embodiment are not, typically encountered in the present invention is having knowledge of various from said substrate grow. and deformation that a modified. Therefore, the present invention is below the idea claim only by grasped the new device must be powered on, is equalized signal or equal to modification scope of the present invention both idea will belong. 10: lens Surface curvature 11: number 1 Surface curvature 12: number 2 Liquid 20: number 1 100 liquid 30: number 2 : light source 120 convex lens 110: number 1 : empty distributor number 1 140 mirror 130: number 1 : case inserted water subject 145:150 diaphragm issue : number 2 mirror 170 160: number 2 empty distributor : convex lens number 2 190: Image forming lens section 200: charge coupled device The present invention relates to a simultaneous measurement method for curvature of both side surfaces and refractive index distribution of a lens, which measures curvature of both side surfaces and refractive index distribution of a lens. The simultaneous measurement method for curvature of both side surfaces and refractive index distribution of a lens comprises: a first light route difference acquisition step; a second light route difference acquisition step; a third light route difference acquisition step; a curvature function calculation step; and a refractive index distribution calculation step. COPYRIGHT KIPO 2016 Number 1 surface curvature of lens of a subject toward a liquid which makes contact with number 1, number 2 number 2 surface curvature of said lens is contact liquid, said liquid and number 1 number 2 liquid and having different indices of refraction from the index of refraction of the lens while has a refractive index from different, different lens said irradiating light of a wavelength controls for measuring the establishing and releasing recording protection on magnetic shape curvature, shape curvature controls in method of simultaneously measuring establishing and releasing recording protection on magnetic, parallel to an optical axis of said lens having a wavelength number 1 number 1 number 1 light said lens is irradiated via liquid, said another in a light path of an optical axis of lens positions of to obtain with photo number 1, number 1 photo with acquisition step; said lens parallel to an optical axis of light having a wavelength number 2 number 1 number 2 said lens is irradiated via liquid, said another in a light path of an optical axis of lens positions of to obtain with photo number 2, number 2 photo with acquisition step; number 3 parallel to an optical axis of said lens having a wavelength number 1 number 3 light said lens is irradiated via liquid, said another in a light path of an optical axis of lens positions of to obtain with photo number 3, number 3 photo with acquisition step; using said number 2 photo withwith and photo said number 1 number 1 number 2 function and curvature surfaces for obtaining function surfaces curvature, curvature function calculation step; said number 3 photo with, said number 2 function and surfaces curvature said number 1 using a function for surfaces curvature, for obtaining said lens refractive index profile, establishing and releasing recording protection on magnetic calculation step; characterized by a semiconductor device using the same comprise the, controls method of simultaneously measuring establishing and releasing recording protection on magnetic shape curvature. According to Claim 1, said lens curvature surface number 1 number 2 to layer that is opposite each other curvature characterized by, controls method of simultaneously measuring establishing and releasing recording protection on magnetic shape curvature. According to Claim 2, in calculation step function curvature, number 1 number 2 function and surfaces curvature curvature surfaces function, (Stage, wherein, λ1 the number 1 wavelength is, λ2 the number 2 wavelength, n1 (λ1) the number 1 of liquid number 1 wavelength according to refractive index and, n1 (λ2) the number 1 of liquid number 2 wavelength according to refractive index and, n2 (λ1) the number 2 of liquid number 1 wavelength according to refractive index and, n2 (λ2) the number 2 of liquid number 2 wavelength according to refractive index and, nL (λ1) of the lens number 1 wavelength according to refractive index and, nL (λ1) of the lens number 2 wavelength according to refractive index and, L1 (x, y) the number 1 curvature surfaces is a function which, L2 (x, y) the number 2 curvature surfaces steps and, ΔΦ1 (λ1) the number 1 wavelength number 1 light when irradiated of number 1 photo with difference which, ΔΦ2 (λ2) the number 2 wavelength number 2 light with chime photo number 2 of when irradiated) that are obtained by using to characterized by, controls method of simultaneously measuring establishing and releasing recording protection on magnetic shape curvature. According to Claim 3, in calculation step function curvature, curvature number 1 number 2 function and surfaces delimiting region function surfaces curvature that are obtained by using (least square method) characterized by to, controls method of simultaneously measuring establishing and releasing recording protection on magnetic shape curvature. According to Claim 3, prior to step acquisition with photo number 1, for detecting average refractive index of said lens, lens refractive index detection step; to characterized by further including, controls method of simultaneously measuring establishing and releasing recording protection on magnetic shape curvature. According to Claim 5, lens refractive index detection step to the average refractive index of said lens in, spectrometer (Spectrometer) or sent to the ellipse (Elipsometer) characterized by marker to be detected by the to, controls method of simultaneously measuring establishing and releasing recording protection on magnetic shape curvature. According to Claim 1, a calculation step establishing and releasing recording protection on magnetic, said lens refractive index profile (Stage, λ3 the number 3 wave length of an, ΔΦ2 (λ3) the number 3 wavelength number 3 light when irradiated of number 3 photo with difference, n1 (λ3) the number 1 of liquid number 3 wavelength according to refractive index and, n2 (λ3) the number 2 of liquid number 3 wavelength according to refractive index and, nL (λ3) according to wavelength number 3 by refractive index of the lens) that are obtained by using to characterized by, controls method of simultaneously measuring establishing and releasing recording protection on magnetic shape curvature. Any one of Claim 1 to Claim 7 controls curvature shape using method of simultaneously measuring establishing and releasing recording protection on magnetic, shape curvature controls through the measuring region establishing and releasing recording protection on magnetic device. Wavelength conversion light source consisting of, light source; light source incident light for from 2 one beam dividing into a multiple, number 1 empty distributor ; empty distributor in number 1 2 one beam divided beams one beam, is incident on a lens collimating number 1, mainly formed with light when illuminated, diaphragm issue having a unit for the inner, sealing lens by the decomposer to intermediate diaphragm bringing up for discussion, inserted is arranged to, diaphragm bringing up for discussion improving his/her posture which is introduced liquid number 1, has the first diaphragm bringing up for discussion that is incorporated into the liquid is the number 2, case inserted water subject; empty distributor 2 number 1 in beam divided one beam beam of the other of, number 2 collimating lens but does reflect the incident light a, number 1 mirror; a liquid crystal layer is formed case inserted water subject and reflect the, number 2 mirror; number 2 the resist layer is the light reflected on the reflective mirror in which the imaging lens; and light reflected from the mirror number 2 in which the imaging lens is is incident on a through, number 1 is light is incident reflected from the mirror, emits light into a charge coupled device, number 2 empty distributor ; characterized by a semiconductor device using the same comprise the, shape curvature controls through the measuring region establishing and releasing recording protection on magnetic device. According to Claim 9, case inserted water subject, said lens curvature surface which makes contact with liquid number 1 number 1, number 2 number 2 surface curvature of said lens is contact liquid, said liquid and number 1 number 2 liquid and having different indices of refraction from the index of refraction of the lens while liquid and number 1 number 2 liquid than the other and having different indices of refraction magnetic field is characterized by, shape curvature controls through the measuring region establishing and releasing recording protection on magnetic device. According to Claim 10, number 1 wavelength so as to fall within a different light source wavelength, wavelength number 2, number 3 incorporated light at wavelengths equal to or characterized by for practicing the method comprising a, shape curvature controls through the measuring region establishing and releasing recording protection on magnetic device. According to Claim 10, number 1 number 2 and collimating lens collimating lens an incident beam light parallel light generated on the basis of an, number 1 collimating lens in said lens light emitted diameter than the diameter of magnetic field is characterized by, shape curvature controls through the measuring region establishing and releasing recording protection on magnetic device. According to Claim 9, an optical charge coupled device CCD detector or be one camera characterized by, shape curvature controls through the measuring region establishing and releasing recording protection on magnetic device. According to Claim 10, charge coupled device from an Image detected in said lens curvature surface number 1 number 2 curvature of the optic surfaces, said lens characterized by part detects refractive index profile, shape curvature controls through the measuring region establishing and releasing recording protection on magnetic device. According to Claim 14, an arithmetic processing part a number 1 wavelength, wavelength number 2, number 3 the order of column wavelength predetermined light source control to eject light having a wavelength for generating and outputting sound and video transmitting and light source driving unit, said light source control signal according to the light source drive is driven so that, light source or optical number 1 wavelength number 1, number 2 wavelength optical number 2, number 3 characterized by wavelength to the light to be emitted to the number 3, shape curvature controls through the measuring region establishing and releasing recording protection on magnetic device. A an arithmetic processing part according to Claim 15 optical number 1, number 2 optical, according to optical number 3, charge coupled device to receive the registered Image detected in, said lens curvature surfaces function number 1 number 2 surface curvature, (Stage, wherein, λ1 the number 1 wavelength is, λ2 the number 2 wavelength, n1 (λ1) the number 1 of liquid number 1 wavelength according to refractive index and, n1 (λ2) the number 1 of liquid number 2 wavelength according to refractive index and, n2 (λ1) the number 2 of liquid number 1 wavelength according to refractive index and, n2 (λ2) the number 2 of liquid number 2 wavelength according to refractive index and, nL (λ1) of the lens number 1 wavelength according to refractive index and, nL (λ1) of the lens number 2 wavelength according to refractive index and, L1 (x, y) the number 1 curvature surfaces is a function which, L2 (x, y) the number 2 curvature surfaces steps and, ΔΦ1 (λ1) the number 1 wavelength number 1 light when irradiated of number 1 photo with difference which, ΔΦ2 (λ2) the number 2 wavelength number 2 light with chime photo number 2 of when irradiated) that are obtained by using characterized by to, shape curvature controls through the measuring region establishing and releasing recording protection on magnetic device. According to Claim 16, an arithmetic processing part said lens a refractive index profile (Stage, λ3 the number 3 wave length of an, ΔΦ2 (λ3) the number 3 wavelength number 3 light when irradiated of number 3 photo with difference, n1 (λ3) the number 1 of liquid number 3 wavelength according to refractive index and, n2 (λ3) the number 2 of liquid number 3 wavelength according to refractive index and, nL (λ3) according to wavelength number 3 by refractive index of the lens) that are obtained by using characterized by to, shape curvature controls through the measuring region establishing and releasing recording protection on magnetic device.
