Designing lenses using stress birefringence performance criterion
    1.
    发明授权
    Designing lenses using stress birefringence performance criterion 有权
    使用应力双折射性能标准设计镜片

    公开(公告)号:US08504328B2

    公开(公告)日:2013-08-06

    申请号:US12784521

    申请日:2010-05-21

    IPC分类号: G06F17/50

    CPC分类号: G02B7/028 G02B13/16 G02B13/22

    摘要: A method for designing an imaging lens having reduced susceptibility to thermally-induced stress birefringence, the imaging lens having first and second groups of lens elements located either side of an aperture stop, the method comprising: defining a set of lens design attributes; defining a set of lens performance criteria including a thermally-induced stress birefringence performance criterion; defining a first set of candidate glasses having a negligible susceptibility to thermal stress birefringence and a second set of candidate glasses having at most a moderate susceptibility to thermal stress birefringence; selecting glasses for lens elements that are located adjacent to the aperture stop from the first set of candidate glasses; selecting glasses for the remaining lens elements from the first or second sets of candidate glasses; and using a computer processor to determine a lens design for the imaging lens.

    摘要翻译: 一种用于设计对热诱导应力双折射具有降低的敏感性的成像透镜的方法,所述成像透镜具有位于孔径光阑的任一侧的第一和第二组透镜元件,所述方法包括:限定一组透镜设计属性; 定义一组透镜性能标准,包括热诱导应力双折射性能标准; 限定对热应力双折射具有可忽略的敏感性的第一组候选眼镜和对热应力双折射具有至多中度敏感性的第二组候选眼镜; 从第一组候选眼镜选择邻近孔径光阑的透镜元件的眼镜; 从第一组或第二组候选眼镜中选择剩余透镜元件的眼镜; 并使用计算机处理器来确定用于成像透镜的透镜设计。

    DESIGNING LENSES USING STRESS BIREFRINGENCE PERFORMANCE CRITERION
    2.
    发明申请
    DESIGNING LENSES USING STRESS BIREFRINGENCE PERFORMANCE CRITERION 有权
    使用应力性能性能标准设计镜片

    公开(公告)号:US20110288824A1

    公开(公告)日:2011-11-24

    申请号:US12784521

    申请日:2010-05-21

    IPC分类号: G06F17/50 G06F17/10

    CPC分类号: G02B7/028 G02B13/16 G02B13/22

    摘要: A method for designing an imaging lens having reduced susceptibility to thermally-induced stress birefringence, the imaging lens having first and second groups of lens elements located either side of an aperture stop, the method comprising: defining a set of lens design attributes; defining a set of lens performance criteria including a thermally-induced stress birefringence performance criterion; defining a first set of candidate glasses having a negligible susceptibility to thermal stress birefringence and a second set of candidate glasses having at most a moderate susceptibility to thermal stress birefringence; selecting glasses for lens elements that are located adjacent to the aperture stop from the first set of candidate glasses; selecting glasses for the remaining lens elements from the first or second sets of candidate glasses; and using a computer processor to determine a lens design for the imaging lens.

    摘要翻译: 一种用于设计对热诱导应力双折射具有降低的敏感性的成像透镜的方法,所述成像透镜具有位于孔径光阑的任一侧的第一和第二组透镜元件,所述方法包括:限定一组透镜设计属性; 定义一组透镜性能标准,包括热诱导应力双折射性能标准; 限定对热应力双折射具有可忽略的敏感性的第一组候选眼镜和对热应力双折射具有至多中度敏感性的第二组候选眼镜; 从第一组候选眼镜选择邻近孔径光阑的透镜元件的眼镜; 从第一组或第二组候选眼镜中选择剩余透镜元件的眼镜; 并使用计算机处理器来确定用于成像透镜的透镜设计。

    LOW THERMAL STRESS BIREFRINGENCE IMAGING SYSTEM
    3.
    发明申请
    LOW THERMAL STRESS BIREFRINGENCE IMAGING SYSTEM 有权
    低热应力成像系统

    公开(公告)号:US20110285963A1

    公开(公告)日:2011-11-24

    申请号:US12784523

    申请日:2010-05-21

    IPC分类号: G02B27/18 G02B27/26 G03B21/14

    摘要: An imaging system having reduced susceptibility to thermally induced stress birefringence, comprising; a relay lens, which images the object plane onto an intermediate image plane; a projection lens, which images the intermediate image plane onto the display surface. The lens elements that are immediately adjacent to a relay lens aperture stop and a projection lens aperture stop are fabricated using glasses having a negligible susceptibility to thermal stress birefringence, and the other lens elements are fabricated using glasses having at most a moderate susceptibility to thermal stress birefringence as characterized by the thermal stress birefringence metric.

    摘要翻译: 一种对热诱导应力双折射具有降低的敏感性的成像系统,包括: 中继透镜,其将物平面成像到中间图像平面上; 投影透镜,其将中间图像平面成像到显示表面上。 使用具有对热应力双折射的敏感性可忽略的玻璃制造与中继透镜孔径光阑紧邻的透镜元件和投影透镜孔径光阑,并且其他透镜元件使用具有至多对热应力的中度敏感度的玻璃来制造 以双折射为特征的热应力双折射度量。

    PROJECTION WITH SLOW RELAY AND FAST PROJECTION SUBSYSTEMS
    4.
    发明申请
    PROJECTION WITH SLOW RELAY AND FAST PROJECTION SUBSYSTEMS 审中-公开
    具有慢速继电器和快速预测子系统的投影

    公开(公告)号:US20100296533A1

    公开(公告)日:2010-11-25

    申请号:US12469718

    申请日:2009-05-21

    IPC分类号: H01S3/13

    摘要: In a coherent light projection system including an image forming system, a relay system, a speckle reduction element, and a projection subsystem, the relay system can have a first f-number, and the projection subsystem can have a second f-number less than the first f-number. The relay system can have a first working distance, and the projection subsystem can have a second working distance less than the first working distance. The image forming system can project an initial image having a first size, and an intermediate image can have a second size greater than or equal to the first size. The speckle reduction element can have a curved surface through which the intermediate image is transferred. The speckle reduction element can include a lenslet arrangement formed on a surface thereof. The speckle reduction element can be moved in a direction parallel to an optical axis of the speckle reduction element.

    摘要翻译: 在包括图像形成系统,中继系统,散斑减少元件和投影子系统的相干光投射系统中,中继系统可以具有第一f数,并且投影子系统可以具有小于 第一个f号码。 继电器系统可以具有第一工作距离,并且投影子系统可以具有小于第一工作距离的第二工作距离。 图像形成系统可以投影具有第一尺寸的初始图像,并且中间图像可以具有大于或等于第一尺寸的第二尺寸。 斑点减少元件可以具有中间图像被转印通过的弯曲表面。 斑点减少元件可以包括在其表面上形成的小透镜布置。 斑点减少元件可以在平行于散斑减少元件的光轴的方向上移动。

    Low thermal stress birefringence imaging lens
    5.
    发明授权
    Low thermal stress birefringence imaging lens 有权
    低热应力双折射成像透镜

    公开(公告)号:US08649094B2

    公开(公告)日:2014-02-11

    申请号:US12784520

    申请日:2010-05-21

    摘要: An imaging lens having reduced susceptibility to thermally-induced stress birefringence for imaging an object plane to an image plane; comprising: an aperture stop positioned between the object plane and the image plane; a first group of lens elements located on the object plane side of the aperture stop; and a second group of lens elements located on the image plane side of the aperture stop; wherein the lens elements immediately adjacent to the aperture stop are fabricated using glasses having a negligible susceptibility to thermal stress birefringence as characterized by a thermal stress birefringence metric; and wherein the other lens elements in the first or second groups of lens elements are fabricated using glasses having at most a moderate susceptibility to thermal stress birefringence as characterized by the thermal stress birefringence metric.

    摘要翻译: 一种成像透镜,其具有降低的用于将物平面成像到图像平面的热应力双折射的敏感性; 包括:位于物平面和图像平面之间的孔径光阑; 位于孔径光阑的物平面侧的第一组透镜元件; 以及位于所述孔径光阑的像面侧的第二组透镜元件; 其中紧邻孔径光阑的透镜元件使用对热应力双折射敏感性可忽略的玻璃制造,其特征在于热应力双折射度量; 并且其中第一组或第二组透镜元件中的其它透镜元件使用对热应力双折射度数表征的热应力双折射的中等敏感度的玻璃来制造。

    Out-of-plane motion of speckle reduction element
    6.
    发明授权
    Out-of-plane motion of speckle reduction element 有权
    斑点减少元件的平面外运动

    公开(公告)号:US08366281B2

    公开(公告)日:2013-02-05

    申请号:US12469766

    申请日:2009-05-21

    IPC分类号: G03B21/14

    摘要: In a coherent light projection system including an image forming system, a relay system, a speckle reduction element, and a projection subsystem, the relay system can have a first f-number, and the projection subsystem can have a second f-number less than the first f-number. The relay system can have a first working distance, and the projection subsystem can have a second working distance less than the first working distance. The image forming system can project an initial image having a first size, and an intermediate image can have a second size greater than or equal to the first size. The speckle reduction element can have a curved surface through which the intermediate image is transferred. The speckle reduction element can include a lenslet arrangement formed on a surface thereof. The speckle reduction element can be moved in a direction parallel to an optical axis of the speckle reduction element.

    摘要翻译: 在包括图像形成系统,中继系统,散斑减少元件和投影子系统的相干光投射系统中,中继系统可以具有第一f数,并且投影子系统可以具有小于 第一个f号码。 继电器系统可以具有第一工作距离,并且投影子系统可以具有小于第一工作距离的第二工作距离。 图像形成系统可以投影具有第一尺寸的初始图像,并且中间图像可以具有大于或等于第一尺寸的第二尺寸。 斑点减少元件可以具有中间图像被转印通过的弯曲表面。 斑点减少元件可以包括在其表面上形成的小透镜布置。 斑点减少元件可以在平行于散斑减少元件的光轴的方向上移动。

    LOW THERMAL STRESS BIREFRINGENCE IMAGING LENS
    7.
    发明申请
    LOW THERMAL STRESS BIREFRINGENCE IMAGING LENS 有权
    低热应力BIREFRINGENCE成像镜头

    公开(公告)号:US20110292505A1

    公开(公告)日:2011-12-01

    申请号:US12784520

    申请日:2010-05-21

    IPC分类号: G02B5/30 G02B27/28

    摘要: An imaging lens having reduced susceptibility to thermally-induced stress birefringence for imaging an object plane to an image plane; comprising: an aperture stop positioned between the object plane and the image plane; a first group of lens elements located on the object plane side of the aperture stop; and a second group of lens elements located on the image plane side of the aperture stop; wherein the lens elements immediately adjacent to the aperture stop are fabricated using glasses having a negligible susceptibility to thermal stress birefringence as characterized by a thermal stress birefringence metric; and wherein the other lens elements in the first or second groups of lens elements are fabricated using glasses having at most a moderate susceptibility to thermal stress birefringence as characterized by the thermal stress birefringence metric.

    摘要翻译: 一种成像透镜,其具有降低的用于将物平面成像到图像平面的热应力双折射的敏感性; 包括:位于物平面和图像平面之间的孔径光阑; 位于孔径光阑的物平面侧的第一组透镜元件; 以及位于所述孔径光阑的像面侧的第二组透镜元件; 其中紧邻孔径光阑的透镜元件使用对热应力双折射敏感性可忽略的玻璃制造,其特征在于热应力双折射度量; 并且其中第一组或第二组透镜元件中的其它透镜元件使用对热应力双折射度数表征的热应力双折射的中等敏感度的玻璃来制造。

    OUT-OF-PLANE MOTION OF SPECKLE REDUCTION ELEMENT
    8.
    发明申请
    OUT-OF-PLANE MOTION OF SPECKLE REDUCTION ELEMENT 有权
    减少元素的平面外运动

    公开(公告)号:US20100296065A1

    公开(公告)日:2010-11-25

    申请号:US12469766

    申请日:2009-05-21

    IPC分类号: G02B27/48 G03B21/14

    摘要: In a coherent light projection system including an image forming system, a relay system, a speckle reduction element, and a projection subsystem, the relay system can have a first f-number, and the projection subsystem can have a second f-number less than the first f-number. The relay system can have a first working distance, and the projection subsystem can have a second working distance less than the first working distance. The image forming system can project an initial image having a first size, and an intermediate image can have a second size greater than or equal to the first size. The speckle reduction element can have a curved surface through which the intermediate image is transferred. The speckle reduction element can include a lenslet arrangement formed on a surface thereof. The speckle reduction element can be moved in a direction parallel to an optical axis of the speckle reduction element.

    摘要翻译: 在包括图像形成系统,中继系统,散斑减少元件和投影子系统的相干光投射系统中,中继系统可以具有第一f数,并且投影子系统可以具有小于 第一个f号码。 继电器系统可以具有第一工作距离,并且投影子系统可以具有小于第一工作距离的第二工作距离。 图像形成系统可以投影具有第一尺寸的初始图像,并且中间图像可以具有大于或等于第一尺寸的第二尺寸。 斑点减少元件可以具有中间图像被转印通过的弯曲表面。 斑点减少元件可以包括在其表面上形成的小透镜布置。 斑点减少元件可以在平行于散斑减少元件的光轴的方向上移动。

    PROJECTION WITH LARGER INTERMEDIATE IMAGE
    9.
    发明申请
    PROJECTION WITH LARGER INTERMEDIATE IMAGE 审中-公开
    具有较大的中间图像的投影

    公开(公告)号:US20100296063A1

    公开(公告)日:2010-11-25

    申请号:US12469737

    申请日:2009-05-21

    IPC分类号: G02B27/48 G03B21/14

    摘要: In a coherent light projection system including an image forming system, a relay system, a speckle reduction element, and a projection subsystem, the relay system can have a first f-number, and the projection subsystem can have a second f-number less than the first f-number. The relay system can have a first working distance, and the projection subsystem can have a second working distance less than the first working distance. The image forming system can project an initial image having a first size, and an intermediate image can have a second size greater than or equal to the first size. The speckle reduction element can have a curved surface through which the intermediate image is transferred. The speckle reduction element can include a lenslet arrangement formed on a surface thereof. The speckle reduction element can be moved in a direction parallel to an optical axis of the speckle reduction element.

    摘要翻译: 在包括图像形成系统,中继系统,散斑减少元件和投影子系统的相干光投射系统中,中继系统可以具有第一f数,并且投影子系统可以具有小于 第一个f号码。 继电器系统可以具有第一工作距离,并且投影子系统可以具有小于第一工作距离的第二工作距离。 图像形成系统可以投影具有第一尺寸的初始图像,并且中间图像可以具有大于或等于第一尺寸的第二尺寸。 斑点减少元件可以具有中间图像被转印通过的弯曲表面。 斑点减少元件可以包括在其表面上形成的小透镜布置。 斑点减少元件可以在平行于散斑减少元件的光轴的方向上移动。

    PROJECTION WITH CURVED SPECKLE REDUCTION ELEMENT SURFACE
    10.
    发明申请
    PROJECTION WITH CURVED SPECKLE REDUCTION ELEMENT SURFACE 有权
    投影具有弯曲的颗粒减少元素表面

    公开(公告)号:US20100296061A1

    公开(公告)日:2010-11-25

    申请号:US12469727

    申请日:2009-05-21

    IPC分类号: G02B27/48 G03B21/14

    摘要: In a coherent light projection system including an image forming system, a relay system, a speckle reduction element, and a projection subsystem, the relay system can have a first f-number, and the projection subsystem can have a second f-number less than the first f-number. The relay system can have a first working distance, and the projection subsystem can have a second working distance less than the first working distance. The image forming system can project an initial image having a first size, and an intermediate image can have a second size greater than or equal to the first size. The speckle reduction element can have a curved surface through which the intermediate image is transferred. The speckle reduction element can include a lenslet arrangement formed on a surface thereof. The speckle reduction element can be moved in a direction parallel to an optical axis of the speckle reduction element.

    摘要翻译: 在包括图像形成系统,中继系统,散斑减少元件和投影子系统的相干光投射系统中,中继系统可以具有第一f数,并且投影子系统可以具有小于 第一个f号码。 继电器系统可以具有第一工作距离,并且投影子系统可以具有小于第一工作距离的第二工作距离。 图像形成系统可以投影具有第一尺寸的初始图像,并且中间图像可以具有大于或等于第一尺寸的第二尺寸。 斑点减少元件可以具有中间图像被转印通过的弯曲表面。 斑点减少元件可以包括在其表面上形成的小透镜布置。 斑点减少元件可以在平行于散斑减少元件的光轴的方向上移动。