IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0258741
(2005-10-26)
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등록번호 |
US-7411730
(2008-08-12)
|
우선권정보 |
DE-10 2004 052 276(2004-10-27) |
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
Patterson, Thuente, Skaar & Christensen, P.A.
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인용정보 |
피인용 횟수 :
2 인용 특허 :
6 |
초록
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A microscope including an optical unit and a collimator. The collimator is arranged preceding or following the optical unit in a beam path of the optical system. The optical unit imposes a predetermined longitudinal chromatic aberration on a beam supplied to a beam path and the beam impinges on the
A microscope including an optical unit and a collimator. The collimator is arranged preceding or following the optical unit in a beam path of the optical system. The optical unit imposes a predetermined longitudinal chromatic aberration on a beam supplied to a beam path and the beam impinges on the collimator as a diverging beam or a parallel beam and is converted by the collimator into a parallel beam or a converging beam. The collimator includes at least one lens as well as a curved mirror which folds the beam path such that the supplied beam passes twice through the lens.
대표청구항
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The invention claimed is: 1. A microscope, comprising: scanning optics; microscope optics including a tube lens and an objective to receive light from a microscope specimen; an optical unit; and a collimator, which collimator is arranged preceding or following the optical unit in a beam path of the
The invention claimed is: 1. A microscope, comprising: scanning optics; microscope optics including a tube lens and an objective to receive light from a microscope specimen; an optical unit; and a collimator, which collimator is arranged preceding or following the optical unit in a beam path of the microscope, said optical unit imposing a predetermined longitudinal chromatic aberration on a beam supplied to said beam path and said beam impinging on the collimator as a diverging beam or a parallel beam and being converted by said collimator into a parallel beam or a converging beam, with the collimator comprising at least one lens as well as a curved mirror which folds the beam path such that the supplied beam passes twice through the lens. 2. The microscope as claimed in claim 1, wherein the longitudinal chromatic aberration characteristic of the collimator is designed such that the longitudinal chromatic aberration imposed on the beam by the optical unit remains unchanged or is reduced. 3. The microscope as claimed in claim 2, wherein the mirror is provided as a rear-surface mirror on one side of the lens. 4. The microscope as claimed in claim 1, wherein the mirror is provided as a rear-surface mirror on one side of the lens. 5. The microscope as claimed in claim 3, wherein the collimator comprises the lens as the only lens and the mirror as the only mirror. 6. The microscope as claimed in claim 1, wherein both sides of the lens are provided as spherical surfaces. 7. The microscope as claimed in claim 1, wherein the beam impinges on the collimator such that the main ray of the beam coincides with the optical axis of the collimator. 8. The microscope as claimed in claim 7, wherein a deflecting mirror comprising a through hole is arranged preceding or following the collimator in the beam path, wherein said beam, if it is a diverging beam, passes through the through hole and impinges on the collimator, and the parallel beam coming from the collimator is deflected by the deflecting mirror, and wherein the beam, if it is a parallel beam, is deflected by the deflecting mirror to the collimator and impinges on the collimator, and the converging beam coming from the collimator passes through the through hole. 9. The microscope as claimed in claim 1, wherein the collimator is provided as a first exchangeable collimator, which may be replaced with a second collimator, said second collimator having a longitudinal chromatic aberration characteristic for a different wavelength region than the first collimator such that, for the other wavelength region, the longitudinal chromatic aberration imposed by the optical unit remains unchanged or is reduced. 10. The microscope as claimed in claim 1, wherein the collimator comprises the mirror as well as two or three lenses, and the lenses as well as the mirror are displaceable along the optical axis of the collimator so as to allow adjustment of a desired longitudinal chromatic aberration characteristic of the collimator. 11. The microscope as claimed in claim 10, wherein all lenses are produced from the same material. 12. The microscope as claimed in claim 1, wherein the optical unit itself is provided as a further collimator, comprising at least a second lens and a second curved mirror, the latter folding the beam path such that the supplied beam passes twice through the second lens. 13. The microscope as claimed in claim 1, wherein the microscope is a laser-scanning microscope and the collimator is used at least in one of an excitation beam path and a detection beam path of the microscope. 14. The microscope as claimed in claim 1, wherein the microscope is a fluorescence correlation spectroscope and the collimator is used in at least one of an excitation beam path and a detection beam path of the spectroscope. 15. A microscope comprising: microscope optics including a tube lens and an objective to receive light from a microscope specimen; an optical unit and a collimator, with the collimator arranged preceding the optical unit in a beam path of the microscope, said optical unit imposing a predetermined longitudinal chromatic aberration on a beam supplied to said beam path and said beam impinging on the collimator as a diverging beam or a parallel beam and being converted by said collimator into a parallel beam or a converging beam, with the collimator comprising at least one lens as well as a curved mirror which folds the beam path such that the supplied beam passes twice through the lens. 16. The microscope as claimed in claim 15, wherein the longitudinal chromatic aberration characteristic of the collimator is designed such that the longitudinal chromatic aberration imposed on the beam by the optical unit remains unchanged or is reduced. 17. The microscope as claimed in claim 15, wherein the optical unit itself is provided as a further collimator, comprising at least a second lens and a second curved mirror, the latter folding the beam path such that the supplied beam passes twice through the second lens. 18. The microscope as claimed in claim 15, wherein the microscope is a laser-scanning microscope and the collimator is used at least in one of an excitation beam path and a detection beam path of the microscope. 19. A microscope, comprising: microscope optics including a tube lens and an objective to receive light from a microscope specimen; an optical unit and a collimator, which collimator is arranged following the optical unit in a beam path of the microscope, said optical unit imposing a predetermined longitudinal chromatic aberration on a beam supplied to said beam path and said beam impinging on the collimator as a diverging beam or a parallel beam and being converted by said collimator into a parallel beam or a converging beam, with the collimator comprising at least one lens as well as a curved mirror which folds the beam path such that the supplied beam passes twice through the lens. 20. The microscope as claimed in claim 19, wherein the optical unit itself is provided as a further collimator, comprising at least a second lens and a second curved mirror, the latter folding the beam path such that the supplied beam passes twice through the second lens.
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