公开(公告)号：US08451452B2

公开(公告)日：2013-05-28

申请号：US12764510

申请日：2010-04-21

Applicant: Adrian Podoleanu ,  Simon Tuohy

Inventor： Adrian Podoleanu ,  Simon Tuohy

IPC: G01B9/02 ,  G01B11/02

CPC classification number: G01B9/02004 ,  A61B3/1015 ,  A61B3/102 ,  A61B3/156 ,  G01B9/02002 ,  G01B9/0201 ,  G01B9/02027 ,  G01B9/02038 ,  G01B9/02063 ,  G01B9/02068 ,  G01B9/0209 ,  G01B9/02091 ,  G01B2290/45 ,  G01B2290/70

Abstract: Methods and devices are disclosed for acquiring depth resolved aberration information using principles of low coherence interferometry and perform coherence gated wavefront sensing (CG-WFS). The wavefront aberrations is collected using spectral domain low coherence interferometry (SD-LCI) or time domain low coherence interferometry (TD-LCI) principles. When using SD-LCI, chromatic aberrations can also be evaluated. Methods and devices are disclosed in using a wavefront corrector to compensate for the aberration information provided by CG-WFS, in a combined imaging system, that can use one or more channels from the class of (i) optical coherence tomography (OCT), (ii) scanning laser ophthalmoscopy, (iii) microscopy, such as confocal or phase microscopy, (iv) multiphoton microscopy, such as harmonic generation and multiphoton absorption. For some implementations, simultaneous and dynamic aberration measurements/correction with the imaging process is achieved. The methods and devices disclosed can provide wavefront sensing in the presence of stray reflections from optical interfaces.

Abstract translation: 公开了使用低相干干涉测量原理获取深度分辨像差信息并执行相干门控波前检测（CG-WFS）的方法和装置。 使用频域低相干干涉测量（SD-LCI）或时域低相干干涉测量（TD-LCI）原理收集波前像差。 当使用SD-LCI时，也可以评估色差。 在使用波前校正器来补偿在组合成像系统中由CG-WFS提供的像差信息的方法和装置被公开，该组合成像系统可以使用来自（i）光学相干断层扫描（OCT）的一个或多个通道， ii）扫描激光眼底镜检查，（iii）显微镜，如共焦或相位显微镜，（iv）多光子显微镜，如谐波产生和多光子吸收。 对于一些实施方案，实现了通过成像过程的同步和动态像差测量/校正。 所公开的方法和装置可以在存在来自光学接口的杂散反射的情况下提供波前感测。

公开(公告)号：US20110134436A1

公开(公告)日：2011-06-09

申请号：US12764510

申请日：2010-04-21

Applicant: Adrian Podoleanu ,  Simon Tuohy

Inventor： Adrian Podoleanu ,  Simon Tuohy

IPC: G01B11/02

CPC classification number: G01B9/02004 ,  A61B3/1015 ,  A61B3/102 ,  A61B3/156 ,  G01B9/02002 ,  G01B9/0201 ,  G01B9/02027 ,  G01B9/02038 ,  G01B9/02063 ,  G01B9/02068 ,  G01B9/0209 ,  G01B9/02091 ,  G01B2290/45 ,  G01B2290/70

Abstract: Methods and devices are disclosed for acquiring depth resolved aberration information using principles of low coherence interferometry and perform coherence gated wavefront sensing (CG-WFS). The wavefront aberrations is collected using spectral domain low coherence interferometry (SD-LCI) or time domain low coherence interferometry (TD-LCI) principles. When using SD-LCI, chromatic aberrations can also be evaluated. Methods and devices are disclosed in using a wavefront corrector to compensate for the aberration information provided by CG-WFS, in a combined imaging system, that can use one or more channels from the class of (i) optical coherence tomography (OCT), (ii) scanning laser ophthalmoscopy, (iii) microscopy, such as confocal or phase microscopy, (iv) multiphoton microscopy, such as harmonic generation and multiphoton absorption. In particular, a swept source (SS) is used that drives both an OCT channel and a coherence gated wavefront sensor, where: a) both channels operate according to SS-OCT principles; b) OCT channel integrates over at least one tuning scan of the swept source to provide a TD-OCT image of the object; c) CG-WFS integrates over at least one tuning scan of the swept source to provide an en-face TD-OCT mapping of the wavefront. For some implementations, simultaneous and dynamic aberration measurements/correction with the imaging process is achieved. The methods and devices for depth resolved aberrations disclosed, will find applications in wavefront sensing and adaptive optics imaging systems that are more tolerant to stray reflections from optical interfaces, such as reflections from the microscope objectives and cover slip in microscopy and when imaging the eye, the reflection from the cornea.

Abstract translation: 公开了使用低相干干涉测量原理获取深度分辨像差信息并执行相干门控波前检测（CG-WFS）的方法和装置。 使用频域低相干干涉测量（SD-LCI）或时域低相干干涉测量（TD-LCI）原理收集波前像差。 当使用SD-LCI时，也可以评估色差。 在使用波前校正器来补偿在组合成像系统中由CG-WFS提供的像差信息的方法和装置被公开，该组合成像系统可以使用来自（i）光学相干断层扫描（OCT）的一个或多个通道， ii）扫描激光眼底镜检查，（iii）显微镜，如共焦或相位显微镜，（iv）多光子显微镜，如谐波产生和多光子吸收。 特别地，使用驱动OCT通道和相干门控波前传感器的扫频源（SS），其中：a）两个通道根据SS-OCT原理操作; b）OCT信道在扫描源的至少一次调谐扫描上进行积分以提供对象的TD-OCT图像; c）CG-WFS集成了扫描源的至少一个调谐扫描，以提供波前的面向TD-OCT映射。 对于一些实施方案，实现了通过成像过程的同步和动态像差测量/校正。 所公开的用于深度分辨像差的方法和装置将会在波前感测和自适应光学成像系统中应用，这些系统对光学界面的杂散反射更为宽容，例如来自显微镜物镜的反射和显微镜下的盖滑动以及当成像眼睛时， 角膜的反射。

公开(公告)号：US07995207B2

公开(公告)日：2011-08-09

申请号：US10576069

申请日：2004-10-14

Applicant: Adrian Podoleanu

Inventor： Adrian Podoleanu

IPC: G01B9/02

CPC classification number: A61B3/102 ,  A61B5/0064 ,  A61B5/0066 ,  A61B5/0073 ,  A61B5/441 ,  A61B5/7203 ,  A61B5/7257 ,  G01B9/02044 ,  G01B9/02069 ,  G01B9/02091 ,  G01N21/4795

Abstract: A spectral interferometry apparatus and method is provided to supply unambiguous profiles (A—scans free of mirror terms) of the reflectivity versus optical path difference and make difference between the positive and negative optical path difference or provide output in a selected interval of optical path differences. The apparatus comprises object optics that transfer a beam from an optical source to a target object (55) to produce an object beam and reference optics that produce a reference beam. Displacing means (57) are provided to produce a gap (g) between the object beam (41′) and the reference beam (42′). Optical spectrum dispersing means (7) such as a grating or a prism receive the two relatively displaced beams, and disperse their spectral content onto a reading element such as a CCD. The combination of the displacing means and the optical spectrum dispersing means creates an intrinsic optical delay between the wavetrains of the object beam and the reference beam which can be used with the optical path difference in the interferometer to generate a channeled spectrum for the optical path difference in the interferometer on the reading element.

Abstract translation: 提供了一种光谱干涉测量装置和方法来提供反射率相对于光程差的明确分布（无镜像的A扫描），并使得在正和负光程差之间产生差异，或者在所选择的光程差间隔中提供输出 。 该装置包括将光束从光源传输到目标物体（55）以产生物体光束和产生参考光束的参考光学器件的物体光学器件。 设置位移装置（57）以在物体光束（41'）和参考光束（42'）之间产生间隙（g）。 诸如光栅或棱镜的光谱分散装置（7）接收两个相对移动的光束，并将其光谱含量分散到诸如CCD的读取元件上。 位移装置和光谱分散装置的组合在物体光束的波长与参考光束之间产生固有的光学延迟，该参考光束可与干涉仪中的光程差用于产生用于光程差的通道光谱 在干涉仪上读取元件。

公开(公告)号：US20080013078A1

公开(公告)日：2008-01-17

申请号：US11828764

申请日：2007-07-26

Applicant: Adrian Podoleanu ,  David Jackson ,  John Rogers ,  George Dobre ,  Radu Cucu

Inventor： Adrian Podoleanu ,  David Jackson ,  John Rogers ,  George Dobre ,  Radu Cucu

IPC: G01N21/00 ,  G01B11/02

CPC classification number: A61B3/102 ,  A61B5/0066 ,  G01B9/0201 ,  G01B9/02027 ,  G01B9/0203 ,  G01B9/02058 ,  G01B9/02063 ,  G01B9/02091 ,  G01B2290/45 ,  G01B2290/70 ,  G01N21/23 ,  G01N21/4795

Abstract: OCT apparatus includes an interferometer, having an input beam splitter and a 50/50 output splitter. The splitting ratio of the input splitter may be optimized depending on the source power of light source and on the mismatch of the balanced receiver. The input splitter is a plate beam-splitter to minimize the stray reflected light in the interferometer and allow sequential operation of the apparatus in the OCT or in the confocal regime. The switching between the two regimes may be at will, or synchronous with the en-face scanning which results in quasi-simultaneous OCT/confocal imaging or in alternatives frames, confocal and OCT. By using polarization sensitive elements, two channels are provided in each regime, OCT and confocal. The two confocal polarization sensitive channels may allow adjustments of compensators prior to OCT measurements or OCT imaging.

Abstract translation: OCT设备包括具有输入分束器和50/50输出分离器的干涉仪。 输入分路器的分频比可以根据光源的功率和平衡接收机的不匹配进行优化。 输入分路器是平板分光器，以最小化干涉仪中的杂散反射光，并允许在OCT或共聚焦状态下对装置的顺序操作。 两种方案之间的切换可以是随意的，或者与进行准同时OCT /共聚焦成像或替代帧，共聚焦和OCT的en-face扫描同步。 通过使用极化敏感元件，在每个方案中提供了两个通道，OCT和共聚焦。 两个共焦极化敏感通道可以允许在OCT测量或OCT成像之前调整补偿器。

公开(公告)号：US20070165234A1

公开(公告)日：2007-07-19

申请号：US10576069

申请日：2004-10-14

Applicant: Adrian Podoleanu

Inventor： Adrian Podoleanu

IPC: G01B9/02 ,  G01J3/45

CPC classification number: A61B3/102 ,  A61B5/0064 ,  A61B5/0066 ,  A61B5/0073 ,  A61B5/441 ,  A61B5/7203 ,  A61B5/7257 ,  G01B9/02044 ,  G01B9/02069 ,  G01B9/02091 ,  G01N21/4795

Abstract: A spectral interferometry apparatus and method is provided to supply unambiguous profiles (A-scans free of mirror terms) of the reflectivity versus optical path difference and make difference between the positive and negative optical path difference or provide output in a selected interval of optical path differences. The apparatus comprises object optics that transfer a beam from an optical source to a target object (55) to produce an object beam and reference optics that produce a reference beam. Displacing means (57) are provided to produce a gap (g) between the object beam (41′) and the reference beam (42′). Optical spectrum dispersing means (7) such as a grating or a prism receive the two relatively displaced beams, and disperse their spectral content onto a reading element such as a CCD. The combination of the displacing means and the optical spectrum dispersing means creates an intrinsic optical delay between the wavetrains of the object beam and the reference beam which can be used with the optical path difference in the interferometer to generate a channelled spectrum for the optical path difference in the interferometer on the reading element

Abstract translation: 提供了一种光谱干涉测量装置和方法来提供反射率相对于光程差的明确分布（无镜像的A扫描），并使得在正和负光程差之间产生差异，或者在所选择的光程差间隔中提供输出 。 该装置包括将光束从光源传输到目标物体（55）以产生物体光束和产生参考光束的参考光学器件的物体光学器件。 设置位移装置（57）以在物体光束（41'）和参考光束（42'）之间产生间隙（g）。 诸如光栅或棱镜的光谱分散装置（7）接收两个相对移动的光束，并将其光谱含量分散到诸如CCD的读取元件上。 位移装置和光谱分散装置的组合在物体光束的波长与参考光束之间产生固有的光学延迟，该参考光束可与干涉仪中的光程差用于产生用于光程差的通道光谱 在干涉仪上读取元件

公开(公告)号：US08678594B2

公开(公告)日：2014-03-25

申请号：US12958791

申请日：2010-12-02

Applicant: Adrian Podoleanu ,  Michael Leitner

Inventor： Adrian Podoleanu ,  Michael Leitner

IPC: A61B3/10 ,  A61B3/14 ,  A61B3/12 ,  A61B3/103

CPC classification number: A61B3/1225 ,  A61B3/102 ,  A61B3/103 ,  G01B9/02004 ,  G01B9/02027 ,  G01B9/02044 ,  G01B9/02065 ,  G01B9/02089 ,  G01B9/0209

Abstract: A spectral interferometry apparatus and method are disclosed, that can be used to monitor or measure an unknown length by following a characteristic of an indicating signal. The measurement is performed by adjusting an optical path difference (OPD) in an interferometer part of an interferometer configuration until sound or light or both are obtained with the desired strength and pitch. Embodiments are presented where the unknown length is the eye length. Spectral interrogation of the interferometer optical output is achieved by reading the signal of an analogue photodetector array in a spectrometer or by tuning a swept source and processing the signal of a photodetector. Sound of different pitches are produced either directly in this process, or by using a nonlinear amplifier, or a mixer. For enhanced signal, the array may be driven by a nonlinear clock or the swept source may be driven by a distorted driving signal.

Abstract translation: 公开了一种光谱干涉测量装置和方法，其可以用于通过遵循指示信号的特性来监视或测量未知长度。 通过调整干涉仪配置的干涉仪部分中的光程差（OPD）来进行测量，直到以期望的强度和间距获得声音或光或者两者。 呈现其中未知长度是眼睛长度的实施例。 通过读取光谱仪中的模拟光电检测器阵列的信号或通过调谐扫频源并处理光电检测器的信号来实现干涉仪光输出的光谱询问。 在该过程中直接产生不同音调的声音，或者通过使用非线性放大器或混音器产生声音。 对于增强的信号，阵列可以由非线性时钟驱动，或者扫描的源可以由失真的驱动信号驱动。

公开(公告)号：US20110043661A1

公开(公告)日：2011-02-24

申请号：US12866304

申请日：2009-02-06

Applicant: Adrian Podoleanu

Inventor： Adrian Podoleanu

IPC: H04N5/262 ,  H04N5/225

CPC classification number: H04N5/232 ,  A61B3/102 ,  A61B3/14 ,  G01B9/02007 ,  G01B9/0203 ,  G01B9/02049 ,  G01B9/02069 ,  G01B9/02079 ,  G01B9/02091 ,  G01B2290/35 ,  G01B2290/70 ,  G02B21/0056 ,  G02B21/0064 ,  H04N5/2252 ,  H04N5/33

Abstract: The invention describes several embodiments of an adapter which can make use of the devices in any commercially available digital cameras to accomplish different functions, such as a fundus camera, as a microscope or as an en-face optical coherence tomography (OCT) to produce constant depth OCT images or as a Fourier domain (channelled spectrum) optical coherence tomography to produce a reflectivity profile in the depth of an object or cross section OCT images, or depth resolved volumes. The invention admits addition of confocal detection and provides simultaneous measurements or imaging in at least two channels, confocal and OCT, where the confocal channel provides an en-face image simultaneous with the acquisition of OCT cross sections, to guide the acquisition as well as to be used subsequently in the visualisation of OCT images. Different technical solutions are provided for the assembly of one or two digital cameras which together with such adapters lead to modular and portable high resolution imaging systems which can accomplish various functions with a minimum of extra components while adapting the elements in the digital camera. The cost of such adapters is comparable with that of commercial digital cameras, i.e. the total cost of such assemblies of commercially digital cameras and dedicated adapters to accomplish high resolution imaging are at a fraction of the cost of dedicated stand alone instruments. Embodiments and methods are presented to employ colour cameras and their associated optical sources to deliver simultaneous signals using their colour sensor parts to provide spectroscopic information, phase shifting inferometry in one step, depth range extension, polarisation, angular measurements and spectroscopic Fourier domain (channelled spectrum) optical coherence tomography in as many spectral bands simultaneously as the number of colour parts of the photodetector sensor in the digital camera. In conjunction with simultaneous acquistion of a confocal image, at least 4 channels can simultaneously be provided using the three color parts of conventional color cameras to deliver three OCT images in addition to the confocal image.

公开(公告)号：US20080074617A1

公开(公告)日：2008-03-27

申请号：US11547922

申请日：2005-03-11

Applicant: Adrian Podoleanu

Inventor： Adrian Podoleanu

IPC: A61B3/10

CPC classification number: G01B9/02091 ,  A61B3/102 ,  G01B9/02083

Abstract: OCT cross section images of a part of a curved object are displayed by creating a series of image points and placing each image point into a corrected image in such a way that the positions of scattering points within the image coincide with or are at least closer to their real spatial distribution within the curved object.

Abstract translation: 通过创建一系列图像点并将每个图像点放置在校正图像中，使得图像内的散射点的位置与图像中的位置一致或至少更接近于图像点来显示弯曲物体的一部分的OCT截面图像 它们在曲线对象内的实际空间分布。

公开(公告)号：US08422023B2

公开(公告)日：2013-04-16

申请号：US12307072

申请日：2007-06-28

Applicant: Adrian Podoleanu

Inventor： Adrian Podoleanu

IPC: G01B9/02

CPC classification number: G01N21/4795 ,  A61B3/102 ,  G01B9/0203 ,  G01B9/02063 ,  G01B9/02091 ,  G01B2290/70

Abstract: An optical coherence tomography (OCT) apparatus includes an optical source, an interferometer generating an object beam and a reference beam, a transverse scanner for scanning an object with said object beam, and a processor for generating an OCT image from an OCT signal returned by said interferometer. At least the optical source, the interferometer, and the scanner are mounted on a common translation stage displaceable towards and away from said object. A dynamic focus solution is provided when the scanner and a folded object path are placed on the translation stage.

Abstract translation: 光学相干断层摄影（OCT）装置包括光源，产生物体光束和参考光束的干涉仪，用于用所述物体光束扫描物体的横向扫描仪，以及用于从OCT信号产生OCT图像的处理器， 所述干涉仪。 至少光源，干涉仪和扫描仪安装在可朝向和远离所述物体移动的公共平移台上。 当扫描仪和折叠对象路径放置在平移台上时，提供动态聚焦解决方案。

公开(公告)号：US20120013849A1

公开(公告)日：2012-01-19

申请号：US12835221

申请日：2010-07-13

Applicant: Adrian Podoleanu ,  Michael Leitner

Inventor： Adrian Podoleanu ,  Michael Leitner

IPC: A61B3/10 ,  G01B11/02

CPC classification number: G01B9/02057 ,  A61B3/1005 ,  A61B3/102 ,  G01B9/02004 ,  G01B9/02021 ,  G01B9/02044 ,  G01B9/02064 ,  G01B9/0209

Abstract: A spectral interferometry apparatus and method are disclosed, that can be used to monitor or measure an unknown length by following a characteristic of an indicating signal. The measurement is performed by adjusting an optical path difference (OPD) in an interferometer until sound or light or both are obtained with the desired strength and pitch. Embodiments are presented where the unknown length is the eye length. Sound of different pitches are produced by scanning the channeled spectrum output of an interferometer with the object returning at least one of the interferometer optical signals. The scanning is performed by reading the signal of an analogue photodetector array driven by a nonlinear clock or by tuning a low cost swept source using a distorted driving signal.

Abstract translation: 公开了一种光谱干涉测量装置和方法，其可以用于通过遵循指示信号的特性来监视或测量未知长度。 通过调整干涉仪中的光程差（OPD）来进行测量，直到以期望的强度和间距获得声音或光或者两者。 呈现其中未知长度是眼睛长度的实施例。 通过用对象返回干涉仪光信号中的至少一个来扫描干涉仪的信道频谱输出来产生不同音调的声音。 通过读取由非线性时钟驱动的模拟光电检测器阵列的信号或通过使用失真的驱动信号调谐低成本扫频源来执行扫描。