Microscope with a viewing direction perpendicular to the illumination direction
Abstract
The invention relates to a microscope, in which a layer of the sample is illuminated by a thin strip of light ( 11 ) and the sample is viewed ( 5 ) perpendicular to the plane of the strip of light. The depth of the strip of light ( 11 ) thus essentially determines the depth of focus of the system. To record the image, the object ( 4 ) is displaced through the strip of light ( 11 ), which remains fixed in relation to the detector ( 8 ), and fluorescent and/or diffused light is captured by a planar detector. Objects ( 4 ) that absorb or diffuse a large amount of light are viewed from several spatial directions. The three-dimensional images, which are captured from each direction can be combined retrospectively to form one image, in which the data is weighted according to its resolution. The resolution of the combined image is then dominated by the lateral resolution of the individual images.
Claims
exact text as granted — not AI-modified1 . A microscope having at least one illumination beam path and at least one detection beam path, wherein
the at least one illumination beam path is provided with a focusing arrangement for producing an object illumination region which extends in the direction of an illumination axis of the illumination beam path and transversely thereto, a detection direction of the at least one detection beam path is substantially orthogonal to the object illumination region, and a mobile arrangement is provided for producing a relative movement between the object illumination region and an object to be studied, wherein the mobile arrangement has at least one rotational axis corresponding substantially to the direction of gravity.
2 . The microscope as claimed in claim 1 , wherein the mobile arrangement can produce at least one of a rotational movement of the object or a displacement movement of the object.
3 . The microscope as claimed in claim 1 , wherein the object is moveable by the mobile arrangement while the object illumination region is substantially stationary.
4 . The microscope as claimed in claim 1 , wherein the object illumination region is moveable by the mobile arrangement while the object is substantially stationary.
5 . The microscope as claimed in claim 1 , wherein a cylindrical lens is arranged in the at least one illumination beam path for focusing the illumination light.
6 . The microscope as claimed in claim 5 , wherein the cylindrical lens is moveable by at least one of a rotational movement about the illumination axis or a displacement movement in at least one of the direction of the illumination axis or the direction of the cylinder axis, or can be tilted via the cylinder axis with respect to the illumination axis.
7 . The microscope as claimed in claim 6 , wherein the cylindrical lens is moveable by a high-frequency movement.
8 . The microscope as claimed in claim 1 , wherein scattered light or fluorescent light of one or more wavelengths is used.
9 . The microscope as claimed in claim 1 , wherein the illumination light beam is produced by a light source producing light of one or more wavelengths.
10 . The microscope as claimed in claim 1 , wherein the mobile arrangement comprises a holder for holding the object in a sample chamber in which the object can be moved about the at least one rotational axis corresponding substantially to the direction of gravity.
11 . The microscope as claimed in claim 1 , further comprising at least two illumination beam paths with substantially opposite illumination directions for producing at least locally overlapping object illumination regions.
12 . The microscope as claimed in claim 11 , wherein illumination light of the at least two illumination beam paths interferes at least locally along said substantially opposite illumination directions substantially in the object illumination region.
13 . The microscope as claimed in claim 12 , wherein the illumination light of the two illumination beam paths has a constant, adjustable phase.
14 . The microscope as claimed in claim 1 , wherein a detector is arranged at the at least one detection beam path, and wherein the detector is laterally moveable with respect to the detection direction of the at least one detection beam path.
15 . The microscope as claimed in claim 1 , wherein the at least one detection beam path can be adapted such that the detection direction is approximately orthogonal to the object illumination region when the object illumination region is shifted.
16 . The microscope as claimed in claim 1 , wherein the object illumination region is substantially planar-shaped.
17 . The microscope as claimed in claim 1 , wherein the object illumination region is substantially linearly-shaped.
18 . The microscope as claimed in claim 1 , wherein the at least one rotational axis is substantially perpendicular to said illumination axis and substantially perpendicular to said detection direction.
19 . A microscope having at least one illumination beam path and at least one detection beam path, wherein
the at least one illumination beam path is provided with a focusing arrangement for producing an object illumination region which extends in the direction of an illumination axis of the illumination beam path and transversely thereto, a detection direction of the at least one detection beam path is substantially orthogonal to the object illumination region, a mobile arrangement is provided for producing a relative movement between the two-dimensional object illumination region and an object to be studied, wherein the object is mounted on a holder, the holder being movable within a sample chamber, such that the mobile arrangement can produce a rectilinear displacement movement of the object within the sample chamber.
20 . The microscope as claimed in claim 19 , wherein the mobile arrangement can produce a rotational movement of the object.
21 . The microscope as claimed in claim 19 , wherein the object is moveable by the mobile arrangement while the object illumination region is substantially stationary.
22 . The microscope as claimed in claim 19 , wherein the object illumination region is moveable by the mobile arrangement while the object is substantially stationary.
23 . The microscope as claimed in claim 19 , wherein a cylindrical lens is arranged in the at least one illumination beam path for focusing the illumination light.
24 . The microscope as claimed in claim 23 , wherein the cylindrical lens is moveable by at least one of a rotational movement about the illumination axis or a displacement movement in at least one of the direction of the illumination axis or the direction of the cylinder axis, or can be tilted via the cylinder axis with respect to the illumination axis.
25 . The microscope as claimed in claim 24 , the cylindrical lens is moveable by a high-frequency movement.
26 . The microscope as claimed in claim 19 , wherein scattered light or fluorescent light of one or more wavelengths is used.
27 . The microscope as claimed in claim 19 , wherein the illumination light beam is produced by a light source producing light of one or more wavelengths.
28 . The microscope as claimed in claim 19 , wherein the holder is rotatable about an axis corresponding substantially to the direction of gravity.
29 . The microscope as claimed in claim 19 , comprising at least two illumination beam paths with substantially opposite illumination directions for producing at least locally overlapping object illumination regions.
30 . The microscope as claimed in claim 29 , wherein illumination light of the at least two illumination beam paths interferes at least locally along said substantially opposite illumination directions substantially in the object illumination region.
31 . The microscope as claimed in claim 30 , wherein the illumination light of the two illumination beam paths has a constant, adjustable phase.
32 . The microscope as claimed in claim 19 , wherein a detector is arranged at the at least one detection beam path, and wherein the detector is laterally moveable with respect to the detection direction of the at least one detection beam path.
33 . The microscope as claimed in claim 19 , wherein the at least one detection beam path can be adapted such that the detection direction is approximately orthogonal to the object illumination region when the object illumination region is shifted.
34 . The microscope as claimed in claim 19 , wherein the object illumination region is substantially planar-shaped.
35 . The microscope as claimed in claim 19 , wherein the object illumination region is substantially linearly-shaped.
36 . The microscope as claimed in claim 19 , wherein the mobile arrangement provides at least one rotational axis being substantially perpendicular to said illumination axis and substantially perpendicular to said detection direction.
37 . A microscope having at least one illumination beam path and at least one detection beam path, wherein
the at least one illumination beam path is provided with a focusing arrangement for producing an object illumination region which extends in the direction of an illumination axis of the illumination beam path and transversely thereto, a detection direction of the at least one detection beam path is substantially orthogonal to the object illumination region, a mobile arrangement is provided for producing a relative movement between the two-dimensional object illumination region and an object to be studied, and the object is mounted on a holder, the holder being movable within a sample chamber, such that the mobile arrangement can produce a rotational movement of the object within the sample chamber, wherein the rotational movement has a rotational axis corresponding substantially to the direction of gravity.Join the waitlist — get patent alerts
Track US2009225413A1 — get alerts on status changes and closely related new filings.
We store only your email — no account needed. See our privacy policy.