NL1019121C2 - Flat, homogeneous light source. - Google Patents

Description

Flat, homogeneous light source

The invention relates to a flat, homogeneous light source with a defined bandwidth.

5

Camera systems (also referred to as "imaging systems") are used to analyze DNA and RNA structures, proteins, etc. In such a camera system, an object is placed, usually in gel form such as a gel with nucleic acid or a gel with protein. The object is irradiated, usually with light and preferably from the bottom. The object can be treated with a fluorophore whereby an object emitted with a preferably monochromatic light on a radiation emits a certain emission as a result of fluorescence. With a large number of fluorophors, the optimum wavelengths for irradiation ("excitation maximum") and of the emission ("emission maximum") are close to each other. According to the state of the art 15, an object, with a size that is usually between 100 and 400 cm 2, is illuminated by means of a fluorescent tube over which a filtering glass plate is placed. A drawback of such an existing excitation source is that the bandwidth of the uncoupled light is not accurately limited, with the result that a part of the excitation light has an overlap with the emission bandwidth. The accuracy and sensitivity of an emission measurement is negatively influenced by this. In order to at least partially neutralize this disturbing effect of the light source that is not precisely limited, an interference band filter could be used in practice. Disadvantages of the use of an interference band filter with an area larger than 100 cm 2 is that such a filter is bulky and very expensive. A further disadvantage of a light source according to the prior art is that it has a non-homogeneous distribution of the light intensity over the surface to be illuminated, and that a different filter plate is always required for each different measurement (with, for example, different fluorophors).

The present invention has for its object to provide a flat and homogeneous light source which can be of relatively cheap and compact design and which is suitable for use in a detection device for fluorescent excitation.

-2-

To this end, the invention provides a flat, homogeneous light source with a bandwidth to be defined (for example, a bandwidth of less than 60 nm), comprising: at least one lamp, light guide means connecting to the lamp, and a coupling-out element connecting to the light guide means light, provided with a surface to be homogeneously illuminated, and filter means arranged between the lamp and the coupling element, for selecting a bandwidth of light to be transmitted. The choice of the lamp in such a light source is free. Thus, in a preferred embodiment, a halogen lamp or a krypton lamp can be chosen which already has a spectrum that is favorable for excitation of many fluorophors. The disadvantage that such a lamp produces relatively much heat is overcome by the presence of the light guiding means; the lamp can be placed at a distance from the surface to be illuminated so that this surface is hardly heated, if at all. Another advantage of the light source according to the invention is that the filter means can also be placed at a distance from the surface to be illuminated.

The filter means can hereby be of compact design and can be selected with fewer limitations from the wide variety of filters already available on the market. It is also possible that the filter is simply exchanged for a filter with a filtering action different from the first filter; for example, with a single lamp it can easily be achieved that the light source can produce different bandwidths of light, which makes it possible to carry out several measurements on the same object and / or measurements with different fluorophore.

The light guiding means may comprise optical fibers. Optical fibers, such as glass fibers, are commercially available as standard and provide great freedom in the design of the light source because they can be flexible. Since the objects to be illuminated are generally larger than 100 cm 2, the uncoupling element also preferably has a surface to be illuminated with a size of at least 100 cm 2. The maximum size is not limited, but surfaces larger than 600 cm2 are possible.

30 BNSDOCID: <NL 1019121C2 I> ** »o-

In a particularly preferred embodiment the uncoupling element is formed by a transparent body with a surface to be illuminated which is provided with irregularities for ejecting the light thrown into the transparent body by the guide means. Such a body can be realized easily and inexpensively in any desired dimension. The light can easily be thrown into the body by, for example, providing openings in one side in which optical fibers are provided. The irregularities can be applied in or on the surface in the form of pits, scratches, protrusion etc. For an even distribution of the light intensity, the irregularities of the surface to be illuminated are arranged such that the density of the irregularities increases at a greater distance from the connection of the guide means to the uncoupling element. Thus, for the uncoupling, it is compensated that the light intensity in the transparent body decreases at a greater distance from the connection (s) of the guide means.

15

For homogeneous illumination of the side to be illuminated, the light guide means connect to the decoupling element at a distance from the side to be illuminated of the decoupling element. The guide means can moreover be concealed by means of such a connection method such that they do not cause any nuisance during use of the light source. When the light guiding means connect to multiple sides of the uncoupling element, it is also possible to efficiently illuminate also uncoupling elements with a larger surface to be illuminated, homogeneously.

When the side to be illuminated is defined as the upper side, it is possible to couple the light in on several sides of the uncoupling element and / or on the underside of the uncoupling element.

In yet another preferred embodiment of the present light source, it is provided with a plurality of lamps which connect to the uncoupling element through the intermediary of separate filtering means. With a plurality of light sources and filter means associated with each light source 30, it is, for example, possible to throw light of different (for example two) colors into the coupling element so that a multiple measurement can be aligned with BNSDOCID. It is of course also possible to vary the intensity with a single color of light by varying the number of lamps with which light of a certain color (wavelength range) is thrown into the coupling element.

5

In order to prevent the filters and possibly other parts of the light source and the immediate surroundings of the light source from overheating, heat-disconnecting means are preferably placed between the lamp and the uncoupling element. Such disconnection means are also known as "hot mirror". The filters can for instance be manually interchangeable, but it is also possible to integrate a mechanical exchange mechanism for filters (for example a rotating disc with filters) in the light source.

For a simple and exchangeable coupling of the light source according to the invention with a detection device, the light source is assembled with a housing substantially enclosing the light source, which housing is provided on the outside with coupling means for fixing the module in a detection device . Such a housing also protects the light source. Such a housing can optionally also be provided with a control panel ("controls") 20 for the lighting source. Another possibility for the lighting source is to couple it to the control of a device in which the lighting source is included.

The present invention will be further elucidated on the basis of the non-limitative exemplary embodiments shown in the following figures. Herein: figure 1 shows a schematic view of the light source according to the invention, figure 2a shows a cut-away view of the elementary parts of a modular light source according to the invention, and figure 2b shows a side view of the modular light source shown in figure 2b.

30 -5-

Figure 1 shows a homogeneous light source 1 provided with two lamps 2, the radiation of which is thrown through a heat filter 4 through reflectors 3. The heat from the lamps 2 is dissipated according to the arrows P1. The remaining light is passed through a color filter 5. Due to the presence of a plurality of alternative color filters 6, color filtering can be optionally adjusted, for example by rotating filter discs 7. The light thus limited in bandwidth by the filter 5 is coupled into a fiber bundle 8 whose fibers 9 extend to two sides 10.11. to a transparent plastic plate 12. A dot pattern 14 is provided on the upper side 13 of the plate 12 through which the light introduced from the fibers 9 into the plate 12 is ejected. At a greater distance from the sides 10, 11 to which the fibers 9 connect, the density of the dot pattern 14 increases.

Figure 2a shows a modular light source 15 with a housing 16 provided with a plug 17 with which the modular light source 15 can be coupled to a detection device for fluorescent excitation. Visible are a decoupling element 18 and lamps 19 arranged on two sides of this element 18, the steel beams 20 of which are thrown through "mirror" 21. Also visible are drives 22 with which a filter of choice can be placed in the steel bundles 20. The light thus colored is trapped in coupling elements 23 and via the fibers (not shown) to the coupling element 18.

Figure 2b shows the modular light source 15 with the housing 16 in side view. Externally visible is the plug 17 as well as projecting parts 24 (these are not shown in Figure 2a) for a simple coupling with a detection device, which is also not shown.

BNSDOCID: <NL 10191911-.9 I>

Claims (12)

A flat, homogeneous light source with a defined bandwidth, comprising: - at least one lamp, 5. light guide means connecting to the lamp, - a light coupling element connecting to the light guide means, provided with a surface to be homogeneously illuminated and - filtering means arranged between the lamp and the coupling element, for selecting a bandwidth of light to be transmitted. 10 Light source according to claim 1, characterized in that the lamp is a halogen lamp or a krypton lamp. 3. Light source as claimed in claim 1 or 2, characterized in that the guide means 15 for light comprise optical fibers. Light source according to one of the preceding claims, characterized in that the coupling element has a surface to be illuminated with a size of at least 100 cm 2. 20 A light source according to any one of the preceding claims, characterized in that the uncoupling element is formed by a transparent body with a surface to be illuminated which is provided with irregularities for ejecting the light thrown into the transparent body by the guide means. 25 Light source as claimed in claim 5, characterized in that the irregularities of the surface to be illuminated are arranged such that the density of the irregularities increases at a greater distance from the connection of the guide means to the uncoupling element. BNSDOCID: <NL .1019121C2 I> -7- * 7. Light source as claimed in any of the foregoing claims, characterized in that the guide means for the light connect to the disconnection element at a distance from the side to be illuminated of the disconnection element. Light source according to claim 6, characterized in that the guide means for connecting the light to a plurality of sides of the uncoupling element. 9. Light source as claimed in any of the foregoing claims, characterized in that a plurality of lamps which connect to the uncoupling element through the intervention of separate filtering means. 10. Light source as claimed in claim 8, characterized in that the plurality of lamps, interposed by the light guide means, all connect to opposite sides of the coupling element, which sides are spaced from the side of the coupling to be illuminated -element. A light source according to any one of the preceding claims, characterized in that heat-disconnecting means are placed between the lamp and the uncoupling element. 12. Light source as claimed in any of the foregoing claims, characterized in that the light source is assembled with a housing substantially enclosing the light source, which housing is provided on the outside with coupling means for mounting the module in a detection device. BNSDOCIDkNL 1019121C2 I>