CN201355404Y - Dark field lighting object lens device - Google Patents

Dark field lighting object lens device Download PDF

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Publication number
CN201355404Y
CN201355404Y CNU2009200367316U CN200920036731U CN201355404Y CN 201355404 Y CN201355404 Y CN 201355404Y CN U2009200367316 U CNU2009200367316 U CN U2009200367316U CN 200920036731 U CN200920036731 U CN 200920036731U CN 201355404 Y CN201355404 Y CN 201355404Y
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CN
China
Prior art keywords
lens
dark field
light
lighting device
field illumination
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Expired - Lifetime
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CNU2009200367316U
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Chinese (zh)
Inventor
赵跃东
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NANJING DONGLILAI PHOTOELECTRIC INDUSTRIAL Co Ltd
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NANJING DONGLILAI PHOTOELECTRIC INDUSTRIAL Co Ltd
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Priority to CNU2009200367316U priority Critical patent/CN201355404Y/en
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    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B21/00Microscopes
    • G02B21/06Means for illuminating specimens
    • G02B21/08Condensers
    • G02B21/082Condensers for incident illumination only
    • G02B21/084Condensers for incident illumination only having annular illumination around the objective

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  • Physics & Mathematics (AREA)
  • Chemical & Material Sciences (AREA)
  • Analytical Chemistry (AREA)
  • General Physics & Mathematics (AREA)
  • Optics & Photonics (AREA)
  • Microscoopes, Condenser (AREA)

Abstract

The utility model relates to a dark field lighting object lens device used in a dark field microscope, which lights dark fields for an observed object and utilizes scattering light and diffraction light of an object to observe, wherein the object lens comprises an inner tube and an outer tube, wherein a lens group for forming image is mounted in the inner tube, and the outer side of the outer tube is provided with LED lighting devices which are arrayed in a ring shape and utilize LED components as a light source. An optical element which converts LED light into parallel light in the meridional plane and aslant irradiates the parallel light on an observed object is arranged between the LED component and the observed object. Lights emitted by the LED components are converted into parallel lights in the meridional plane and are irradiated on the observed object. Lights scattered or diffracted by the observed object are observed by an eye lens after forming image through an image-forming object lens or conducted with image processing after being shot by a photographic arrangement. The periphery of the end portion of the inner tube of the dark field lighting object lens device is provided with screw threads, and the dark field lighting object lens device can be directly mounted on a changeover panel of a bright field microscope, and therefore, the bright field microscope can be directly used for dark field observation.

Description

A kind of dark field illumination objective lens apparatus
Technical field
The utility model is related a kind ofly to carry out dark field illumination to the object of observation, utilizes used objective for dark-ground observation device in the scattering of object and the dark ground microscope that diffraction light is observed.
Background technology
When the surface tear of checking integrated circuit (IC) pattern, liquid crystal usefulness glass and dust, utilize dark field illumination more favourable, so under dark field illumination, observe usually.Different with the bright field illumination of shining observed object along optical axis direction, dark field illumination is with vergence direction illumination light to be projected on the observed object from the side, and object lens receive and observe the diffraction and the scattered light of observed object.
There is following problem in the object lens that present dark field illumination is used.Also need to set up in addition a lighting device outside microscopical optical system, lighting device comprises light source and the light that light source sent is converted to the collimation optics original paper of directional light.
The dark field of the flat 7-281098 patent disclosure of TOHKEMY is observed the inner core of the lens combination of being used by the clamping imaging with the lens barrel of object lens and hollow urceolus two parts that dark field illumination is used with the directional light leaded light is formed.In order to propagate dark field illumination light, usually by the annular space of forming by inside and outside tube.For fixed outer cylinder, three linking arms will be arranged between inner core and urceolus at least, these three linking arms will be in illumination path frequency modulated light, reduce the irradiation light on observing.Need other optical element in order to overcome its influence.
In order to make illumination light directly not enter image-forming objective lens, need be in illumination path circular filter, this also will reduce the received light of dark field viewing area.
The object lens that dark field is used are owing to need be provided with the leaded light urceolus that dark field illumination is used, and the external diameter of its lens barrel is thicker than the lens barrel of objective for bright-field observation.Can't directly be installed on the Nosepiece of bright-field microscope.Can't carry out dark field with bright-field microscope observes.Equally, the light and shade visual field is observed with object lens diameter for the converter of dark ground microscope too small, and the words of installation need other transition interface.
TOHKEMY 2000-121949 technical scheme that patent is carried is that this is the same with dark field illumination with LED direct illumination object being observed.Be not that the light in the meridian ellipse is converted to the observed object of irradiation behind the directional light, so for observing also not really suitable with the dark field of scattered light based on the diffraction light of observing observed object.
Though TOHKEMY 2006-039418 patent also has been suitable for the LED illumination owing to be directly the light that LED sent to be imported the outside of illumination camera or microscope inner core as directional light, so exist and original dark field illumination with the same problem of lens barrel.In addition, because camera is arranged in the lens barrel, can't also the object lens of different enlargement ratios can't be installed on the same microscope and observe with same object lens bright field and dark field and usefulness with different enlargement ratios.
In the scheme that TOHKEMY 2001-154103 patent is carried, the annular LED lighting device that dark field illumination is used is independent of lens barrel, but does not mention in this scheme how the light in the meridian ellipse being become directional light shines on the object of observation.Because light source is to be built up in the microscope, does not also consider the variation of different multiplying object lens and light source focal length.
The utility model content
The purpose of this utility model provides and a kind ofly realizes dark field illumination for the object of observation provides enough luminous flux fully, and can be directly installed on the dark field illumination objective lens apparatus on the converter of bright-field microscope.
Dark field illumination objective lens apparatus of the present utility model comprises coaxial inner/outer tube, is arranged on the imaging lens combination in the inner core, is provided with the lighting device that is arranged in ring-type between inner/outer tube; Be provided with between lighting device and the observed object that the light that in meridian ellipse lighting device is sent is converted to directional light and the optical element of oblique illumination to the observed object; Inner core end periphery is provided with the screw thread on the changeover panel that is used for directly being installed to bright-field microscope.
The imaging of object lens is installed in the inner core with lens combination in the utility model.Be provided with the lighting device (as with the LED lighting device of LED original paper) that is arranged in ring-type as light source in the outside of urceolus.Be converted to directional light, the oblique illumination optical element to the observed object being provided with the light that in meridian ellipse, light source is sent between light source (as the LED original paper) and the observed object.The light that light source sends is converted into directional light and shines on the observed object in meridian ellipse.The light of observed object scattering or diffraction is observed by eyepiece after the image-forming objective lens imaging or is taken laggard row image with camera and handle.This objective for dark-ground observation device inner core end periphery has screw thread, can directly be installed on the changeover panel of bright-field microscope.So bright-field microscope can directly be migrated and is dark field observation usefulness.
As improvement, it also comprises being used for the ring-type battery to lighting device power supply that is arranged between the inner/outer tube.This promptly is the dark field illumination objective lens apparatus of built-in power.Certainly, the lighting device in this dark field illumination objective lens apparatus also can use external power source.When using external power source, preferably it also comprises the outside import system of 360 degree rotary power source interfaces that is used for to the lighting device power supply.The structure of the outside import system of this 360 degree rotary power source interface can have varied, also comprises the wiring board that is provided with positive and negative electrode annular conductive film as it; The both positive and negative polarity of lighting device is connected with positive and negative electrode annular conductive film; Wiring board is rotating to be sleeved on the dark field illumination objective lens apparatus; The external power receptacle that links to each other with positive and negative electrode annular conductive film is arranged on the wiring board.It also comprises with external power source and being connected with the supply socket to the lighting device power supply.The interface of external power source import system is 360 degree whirligigs, and any orientation can connect power supply, and is easy to use; If use built-in ring-type battery, only the lens barrel of dark field viewing objective is installed on the microscope and can realizes dark field illumination, operate very simply, not needing is that the electric consumption on lighting source is equipped with electric wire.This battery as secondary cell, is provided with the charging jack on the urceolus of lens barrel, can uses for a long time by charging.
As improvement, optical element comprises ring lens, non-spherical reflector or tire tread lens, and preferably optical element comprises that also the light that lighting device is sent is corrected as the offset lens of directional light.Ring lens, nonspherical reflector and tire tread lens cooperate offset lens to be used for realizing illumination light is formed oblique illumination.The light that offset lens can go out light emitted better is corrected as directional light, and ring lens, aspheric surface transmitting mirror and tire tread lens make the depth of parallelism of light better on the one hand, changes direction of light in addition on the one hand, realizes illumination light is formed oblique illumination light.Above element forms directional light and shines on the plane of illumination in meridian ellipse.
Because the visual field of the object lens of different multiplying has nothing in common with each other, operating distance is also inequality, the gradient of object lens outgoing also with the visual field of object lens and operating distance to related.Tiltedly the depth of parallelism of emergent light in the meridian ellipse focal distance f, irradiation area (visual field) S that depend on the width (D-d)/2 of distance L between the optical element of light source and the oblique outgoing of formation, the ring between the inner/outer tube and form the optical element of oblique outgoing determines.
1. if use ring lens, the focal distance f of ring lens satisfies 0.9WD>f>1.1WD;
Irradiation area (visual field) S≤(D-d)/2;
Light source satisfies with the distance L that forms oblique outgoing light source component: L>3.3 (D-d).
2. use the aspheric surface transmitting mirror as the optical element that forms oblique outgoing,
Irradiation area (visual field) S≤(D-d)/2;
Light source satisfies with the distance L that forms oblique outgoing light source component: L>3.3 (D-d).
3. if use the tire tread lens,
The emergence angle α of tire tread lens 〉=tan -1[(S+d)/2WD]; The width b of tire tread lens satisfies b 〉=S * Cos α;
Distance L between light source and the tire tread lens satisfies L=fb.
Wherein, WD is the operating distance of object lens; D is the urceolus internal diameter; D is the inner core external diameter.
Use the different optical element and satisfy above-mentioned these conditions and can better realize the dark field illumination that we wish, i.e. Bao Certificate directional light irradiation as far as possible, the reflected light of irradiates light does not enter object lens.
The beneficial effect of utility model: the utility model is observed dark field in the lens barrel of ensconcing object lens in the light source of usefulness, and sufficient luminous flux can be provided in the dark field range of observation, so can improve the checking ability that dark field is observed.In addition, owing to can change object lens separately, can improve the work efficiency of inspection simultaneously.Owing to can be directly installed on the bright-field microscope and use, need not specially to be the special changeover panel of objective for dark-ground observation equipment.
Description of drawings
The sectional drawing of Fig. 1 the utility model embodiment 1
The objective for dark-ground observation of Fig. 2 the utility model embodiment 1 is installed in the synoptic diagram on the converter of bright field
The sectional schematic diagram of Fig. 3 the utility model embodiment 2
The sectional drawing of Fig. 4 the utility model embodiment 3 (please in Fig. 4, replenishing sequence number 1,2,10)
The sectional drawing of Fig. 5 the utility model embodiment 4
Among the figure, 1 inner core; 2 urceolus; 3 object lens imaging lens group; 4 batteries; 5 substrates; The 6LED element; 7 offset lens; 8 ring lens; 9 power switches; 10 charging jacks; 11 screw threads; 12 converters; 13 non-spherical reflectors; 14 tire tread lens; 15 supply sockets; 16 wiring boards; 17 lids; 18 pressing plates; S: field of illumination; D: warp (bright field lens external diameter) in the ring; D: ring external diameter; WD: bright field lens operating distance; Distance between the optical element of L:LED light source and formation inclination outgoing; α: the emergence angle of ring-type tire tread lens in meridian ellipse; B: the width of tire tread lens; Fb: the back focal length of tire tread lens in the meridian ellipse.
Embodiment
Describe embodiment of the present utility model in detail below in conjunction with accompanying drawing.
Embodiment 1
Fig. 1 is the sectional view of the dark field illumination objective lens apparatus of expression the utility model embodiment 1.
Present embodiment is made up of the inner core 1 and the urceolus 2 of dead in line.The lens combination 3 that imaging is used is installed in the inner core 1.Inner core 1 is d (warp in the ring) towards the external diameter of object being observed one side, the external diameter of bright field lens when being equivalent to use object lens to observe in the bright field.The axle center of urceolus 2 is identical with inner core 1.Between urceolus 2 and the inner core 1 annulus is arranged.Be followed successively by ring-type battery 4 in the annulus from top to bottom, the substrate 5 of LED element is installed, LED element 6 improves the offset lens 7 that LED launches the parallel light degree, and the illumination light that LED element 6 is sent is converted to directional light at meridian ellipse, shines the ring lens 8 on the dark field illumination region S.Control LED element on substrate 5 is bright, go out and stretch out the surface of urceolus 2 with power switch 9.Battery 4 is chargeable secondary cells, and its charging can be arranged on the correct position of urceolus 2 with jack 10.
Microcobjective to be shaped on around a end that the microscope body is installed, the inner core top be used for the microscope converter on the screw thread 11 that matches of installation screw socket.Because the external diameter of inner core 1 and the diameter identical (as Φ 20) of objective for bright-field observation device can directly install on the camera lens converter of bright-field microscope.Thus, can directly bright-field microscope be used for dark field observes.Fig. 2 is that the objective for dark-ground observation device with embodiment 1 is installed in the synoptic diagram on the Nosepiece 12 of bright-field microscope.
Ring lens 8 is middle annulars that have a sky, and the external diameter of the diameter in hole and inner core 1 is suitable.The effect of ring lens 8 is that the illumination light that will send from ring-type LED element 5 becomes directional light to shine obliquely on the dark field illumination region S in the meridian ellipse inner conversion, the operating distance WD of its focal distance f and object lens (observed object is to the distance of object lens) is suitable, satisfies 0.9WD>f>1.1WD.
If the external diameter of inner core (external diameter of the inner core of clamping imaging lens group) is d, the interior warp of urceolus is D, and field of illumination S satisfies S≤(D-d)/2 get final product.
Distance L between LED element 6 and the ring lens 8 satisfies L>3.3 (D-d) and gets final product.
The depth of parallelism of illuminating bundle in meridian ellipse that tilts to penetrate from offset lens 7 depends on the ring width ((D-d)/2) of distance L, annulus, the focal distance f of ring lens and visual field S.Parallel illumination light is the necessary condition that realizes that effective dark field is observed, and also is that the specular light of the illumination light of inclination outgoing does not directly enter the condition of imaging with object lens.
The LED illumination component is with the about 15 ° of bullet cut LED of beam divergence angle.
If the beam divergence angle of LED element greater than 15 °, is difficult to form the high inclination outgoing directional light of the depth of parallelism with single ring lens 8.And add the purpose of offset lens 7, improve the depth of parallelism of the light that LED sends exactly.
Embodiment 2
Dark field illumination objective lens apparatus referring to employing non-spherical reflector 13 shown in Figure 3.Except that non-spherical reflector 13, the structure of remainder is all identical with embodiment 1, so the explanation of part beyond this omits non-spherical reflector.
In the 2nd embodiment, identical with embodiment 1, field of illumination S satisfies that S≤(D-d), D in the formula, d are respectively urceolus internal diameter and inner core external diameter (external diameter of the inner core of clamping imaging lens group).In addition, the distance L between LED element 6 and the non-spherical reflector 13 preferably also satisfies L>3.3 (D-d).
Non-spherical reflector 13 forms tire tread, and incident light is become directional light in the meridian ellipse inner conversion.Therefore, with non-spherical reflector 13, the illumination light that the LED element that is arranged in ring-type is sent becomes directional light in sub-object plane inner conversion, shines obliquely on the S of field of illumination, realizes that the dark field observation is with throwing light on.
Embodiment 3
Below, describe the illumination light oblique illumination the LED element sent with ring-type tire tread lens in detail to the S of field of illumination with reference to Fig. 4, realize that dark field observes the embodiment with objective apparatus.
Fig. 4 is the sectional drawing that the front end of urceolus is equipped with the dark field illumination objective lens apparatus of tire tread lens 14.In this embodiment 3, the mounting means of LED is different with embodiment 1,2, transfer direct oblique illumination for the light that the LED element is sent on the S of field of illumination without optical axis, and the leading section of urceolus 2 of accommodating the LED element is with respect to 1 one-tenth open coniform form of inner core.That is, urceolus 2 is umbrella and extends for the middle part from inner core 1 begins forward end, is used to install, stationary arrangement LED element, substrate, tire tread lens 14 circlewise.The light that LED element 6 is sent is that parallel light emergence is to shadow surface S through ring-type tire tread lens 14 in the meridian ellipse internal conversion.
The diameter that is used to connect microscope body on the inner core 1 is identical with the bright-field microscope objective apparatus, but also is shaped on the screw thread 10 that can be installed to bright-field microscope camera lens converter, so can directly be installed on the converter of bright-field microscope.
Different with embodiment 1,2, the conversion of optical axis not being tilted in the embodiment 3, but the optical axis of LED element 6, ring-type tire tread lens 14, field of illumination S is arranged point-blank.
Here, the emergence angle α of tire tread lens 14 〉=tan -1[(S+d)/2WD], the width b of tire tread lens satisfies b 〉=S * Cos α, and the distance L between led light source and the tire tread lens satisfies L=fb and gets final product.
Thus, the illumination light of sending from the LED element is converted into directional light in meridian ellipse, be radiated at obliquely on the object of observation region S.
Same with embodiment 1, embodiment 2,3 also is shaped on screw thread in the periphery, end of inner core 1, can be installed on the converter of bright-field microscope.
Embodiment 4
In embodiment 1, embodiment 2, embodiment 3, described all is the built-in power mode that adopts the ring-type battery.The sectional drawing of the dark field illumination objective lens apparatus that adopts the outside import system of 360 degree rotary power source interfaces is described below in conjunction with Fig. 5.Except that provide power mode different, the structure of remainder is all identical with embodiment 1, so omit the explanation of other parts at this.
In this embodiment 4, the power supply lead-in mode of LED is different with embodiment 1,2,3, is the external power source lead-in mode.In order to make supply socket 15 not be subjected to the influence of interface direction position, on wiring board 16, be provided with positive and negative electrode annular conductive film.When supply socket 15 imported power supply, the positive and negative electrode of the element of LED was by the conduction of the conductive film on the wiring board 16 of electroconductive elastic sheet contact.By cover 17 and the machinery of pressing plate 18 cooperate, make supply socket 15, wiring board 16, lid 17 and pressing plate 18 form the integral body of a rotation.When rotating supply socket 15, wiring board 16 interlocks, owing to be annular conductive film mode on the wiring board, so where position in office, the LED element can both normally conduct electricity.By above frame mode, formed can 360 degree rotations the outside import system of power interface.
The utility model provides a kind of dark field that has simple and easy lighting device to observe and has used object lens, can simplify the optical devices that dark field is observed usefulness greatly, can further improve the automatization level of pick-up unit, has broad prospect of application in IC, liquid crystal industry.

Claims (10)

1. a dark field illumination objective lens apparatus comprises coaxial inner/outer tube, is arranged on the imaging lens combination in the inner core, it is characterized in that: be provided with the lighting device that is arranged in ring-type between inner/outer tube; Be provided with between lighting device and the observed object that the light that in meridian ellipse lighting device is sent is converted to directional light and the optical element of oblique illumination to the observed object; Inner core end periphery is provided with the screw thread on the changeover panel that is used for directly being installed to bright-field microscope.
2. dark field illumination objective lens apparatus according to claim 1 is characterized in that: lighting device is with the LED lighting device of LED element as light source.
3. the described dark field illumination objective lens apparatus of claim 2, it is characterized in that: described LED element is bullet cut LED.
4. dark field illumination objective lens apparatus according to claim 1 it is characterized in that: further comprising being used for the ring-type battery to lighting device power supply that is arranged between the inner/outer tube.
5. dark field illumination objective lens apparatus according to claim 1 it is characterized in that: further comprising the outside import system of 360 degree rotary power source interfaces that is used for to the lighting device power supply.
6. dark field illumination objective lens apparatus according to claim 1 is characterized in that: optical element comprises ring lens, non-spherical reflector or tire tread lens.
7. dark field illumination objective lens apparatus according to claim 6 is characterized in that: optical element comprises that also the light that lighting device is sent is corrected as the offset lens of directional light.
8. dark field illumination objective lens apparatus according to claim 1, it is characterized in that: optical element comprises ring lens, the focal distance f of ring lens satisfies 0.9WD>f>1.1WD;
Irradiation area S≤(D-d)/2;
The distance L of light source and ring lens satisfies: L>3.3 (D-d);
Wherein, WD is the operating distance of object lens; D is the urceolus internal diameter; D is the inner core external diameter.
9. dark field illumination objective lens apparatus according to claim 1 is characterized in that: optical element comprises the aspheric surface transmitting mirror; Irradiation area S≤(D-d)/2;
The distance L of lighting device and aspheric surface transmitting mirror satisfies: L>3.3 (D-d); Wherein, D is the urceolus internal diameter; D is the inner core external diameter.
10. dark field illumination objective lens apparatus according to claim 1 is characterized in that: optical element comprises the tire tread lens;
The emergence angle α of tire tread lens 〉=tan -1[(S+d)/2WD];
The width b of tire tread lens satisfies b 〉=S * Cos α;
Distance L between lighting device and the tire tread lens satisfies L=fb;
Wherein, WD is the operating distance of object lens; S is an irradiation area; D is the inner core external diameter.
CNU2009200367316U 2009-02-24 2009-02-24 Dark field lighting object lens device Expired - Lifetime CN201355404Y (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101414056B (en) * 2008-12-05 2010-08-11 南京东利来光电实业有限责任公司 Dark field illumination objective lens apparatus
CN103032772A (en) * 2012-12-25 2013-04-10 林璧光 LED (Light-Emitting Diode) illuminating lamp arranged on external flashlight
CN104111523A (en) * 2013-04-19 2014-10-22 卡尔蔡司显微镜有限责任公司 Ring Illumination Device For A Microscope Lens And Microscope Lens
TWI611177B (en) * 2016-10-24 2018-01-11 致茂電子股份有限公司 Detecting equipment
CN109154571A (en) * 2016-05-31 2019-01-04 分子装置有限公司 Utilize the imaging system of oblique illumination
DE102022205197B3 (en) 2022-05-24 2023-11-16 Carl Zeiss Ag Portable optical observation device

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101414056B (en) * 2008-12-05 2010-08-11 南京东利来光电实业有限责任公司 Dark field illumination objective lens apparatus
CN103032772A (en) * 2012-12-25 2013-04-10 林璧光 LED (Light-Emitting Diode) illuminating lamp arranged on external flashlight
CN103032772B (en) * 2012-12-25 2014-12-24 林璧光 LED (Light-Emitting Diode) illuminating lamp arranged on external flashlight
CN104111523A (en) * 2013-04-19 2014-10-22 卡尔蔡司显微镜有限责任公司 Ring Illumination Device For A Microscope Lens And Microscope Lens
CN109154571A (en) * 2016-05-31 2019-01-04 分子装置有限公司 Utilize the imaging system of oblique illumination
JP2019523899A (en) * 2016-05-31 2019-08-29 モレキュラー デバイシーズ, エルエルシー Imaging system with tilted illumination
TWI611177B (en) * 2016-10-24 2018-01-11 致茂電子股份有限公司 Detecting equipment
DE102022205197B3 (en) 2022-05-24 2023-11-16 Carl Zeiss Ag Portable optical observation device

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Granted publication date: 20091202

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