Ultra-small optical probes, imaging optics, and methods for using same
First Claim
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1. An optical imaging probe comprising:
- a single-mode optical fiber including a core having a first diameter and a cladding layer having a second diameter, the single-mode optical fiber conveying an optical beam at the first diameter; and
a graded index optical fiber fixedly and optically coupled to the single-mode optical fiber and having substantially the same diameter as the second diameter of the cladding layer, the graded index optical fiber expanding the optical beam from the first diameter to a desired diameter while traversing the graded index optical fiber and focusing the optical beam to form a spot size smaller than 100 μ
m in diameter at a working distance greater than 1 mm from an end of the graded index optical fiber.
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Abstract
Ultra-small optical probes comprising a single-mode optical fiber and a lens which has substantially the same diameter as the optical fiber. The optical fiber and lens are positioned in a probe housing which is in the form of an insertional medical device such as a guidewire. Connector elements are provided to facilitate the attachment of the probe to an optical system and the quick disconnection of the probe from the optical system. The probe is used to obtain optical measurements in situ in the body of an organism and can be used to guide interventional procedures by a surgeon.
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Citations
11 Claims
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1. An optical imaging probe comprising:
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a single-mode optical fiber including a core having a first diameter and a cladding layer having a second diameter, the single-mode optical fiber conveying an optical beam at the first diameter; and
a graded index optical fiber fixedly and optically coupled to the single-mode optical fiber and having substantially the same diameter as the second diameter of the cladding layer, the graded index optical fiber expanding the optical beam from the first diameter to a desired diameter while traversing the graded index optical fiber and focusing the optical beam to form a spot size smaller than 100 μ
m in diameter at a working distance greater than 1 mm from an end of the graded index optical fiber.- View Dependent Claims (2, 3, 4, 5, 6, 7)
a beam director optically coupled to the graded index optical fiber; and
a housing defining a bore therein for receiving the single-mode optical fiber, graded index optical fiber, and beam director, the housing including a section at least partially transparent to the optical beam.
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7. The optical imaging probe of claim 6 further comprising:
an optical transmitter stored within the housing and positioned between the beam director and the at least partially transparent section of the housing, the optical transmitter adapted to neutralize an optical effect of the at least partially transparent section of the housing.
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8. A method of measuring the optical properties of a test sample in situ, the method comprising the steps of:
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providing a single-mode optical fiber including a core having a first diameter and a cladding layer having a second diameter, the single-mode optical fiber being adapted to convey an optical beam at the first diameter;
providing a graded index optical fiber fixedly and optically coupled to the single-mode optical fiber and having substantially the same diameter as the second diameter of the cladding layer;
transmitting the optical beam at the first diameter to the graded index optical fiber via the single-mode optical fiber;
expanding the optical beam from the first diameter to a desired diameter while traversing the graded index optical fiber;
focusing, by the graded index optical fiber, the optical beam to form a spot size smaller than 100 μ
m in diameter at a working distance greater than 1 mm from an end of the graded index optical fiber, the working distance corresponding to a location of the test sample in situ; and
detecting light reflected back from the test sample. - View Dependent Claims (9, 10, 11)
determining the optical properties of the test sample from the light reflected therefrom; and
comparing the optical properties of the test sample to optical properties of a control sample.
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10. The method of claim 8 further comprising the steps of:
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providing a beam director fixedly and optically coupled to the graded index optical fiber; and
compensating, by the graded index optical fiber, for the optical effects of the beam director.
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11. The method of claim 10 further comprising the steps of:
inserting the single-mode optical fiber, graded index optical fiber, and beam director within a bore defined by a housing; and
transmitting the focused optical beam through an optical transmitter located between the beam director and the housing, the optical transmitter neutralizing an optical effect associated with a transparent section of the housing.
Specification