The present invention provides a measurement apparatus that measures a position of an object, including an illumination system configured to illuminate the object with illumination light, an image forming system configured to form, on a photoelectric conversion device configured to detect an image of the object, an image of detected light from the object, and a separation system including a reflective polarizer and a λ/4 plate arranged between the illumination system and the image forming system, and configured to separate the illumination light and the detected light via the reflective polarizer and the λ/4 plate, wherein the separation system includes at least one optical member arranged between the reflective polarizer and the λ/4 plate, and each of the illumination system and the image forming system includes a transmission polarizer.

Embodiments of the present disclosure provide a substrate measuring device in a lithography projection apparatus that provides multiple light sources having different wavelengths. In some embodiments, a lithography projection apparatus includes a substrate measuring system disposed proximate to a substrate stage, the substrate measuring system further including an emitter including multiple light sources configured to provide multiple beams of light, each of at least some of the multiple beams of light having a different wavelength, at least one optical fiber, wherein each of respective portions of the at least one optical fiber is configured to pass a respective one of the multiple beams of light, and a receiver positioned to collected light emitted from the emitter and reflected off of a substrate disposed on the substrate stage.

Disclosed is an optical component, being configured to function as an optical frequency converter in a broadband radiation source device. The optical component comprises a gas cell, and a hollow-core photonic crystal fiber at least partially enclosed within said gas cell. The local cavity volume of said gas cell, where said hollow-core photonic crystal fiber is enclosed within the gas cell, comprises a maximum value of 36 cm.sup.3 per cm of length of said hollow-core photonic crystal fiber.

A supercontinuum radiation source including a modulator being operable to modulate pump laser radiation including a train of radiation pulses to provide modulated pump laser radiation, the modulation being such to selectively provide a burst of the pulses; and a hollow-core photonic crystal fiber being operable to receive the modulated pump laser radiation and excite a working medium contained within the hollow-core photonic crystal fiber so as to generate supercontinuum radiation.

Optical components and methods of manufacture thereof. A first optical component has a hollow-core photonic crystal fiber includes internal capillaries for guiding radiation and an outer capillary sheathing the internal capillaries; and at least an output end section having a larger inner cross-sectional dimension over at least a portion of the output end section than an inner cross-sectional dimension of the outer capillary along a central portion of the hollow-core photonic crystal fiber prior to the output end section. A second optical component includes a hollow-core photonic crystal fiber and a sleeve arrangement.

Disclosed is an optical component, being configured to function as an optical frequency converter in a broadband radiation source device. The optical component comprises a gas cell, and a hollow-core photonic crystal fiber at least partially enclosed within said gas cell. The local cavity volume of said gas cell, where said hollow-core photonic crystal fiber is enclosed within the gas cell, comprises a maximum value of 36 cm.sup.3 per cm of length of said hollow-core photonic crystal fiber.

Disclosed is an optical component, being configured to function as an optical frequency converter in a broadband radiation source device. The optical component comprises a gas cell, and a hollow-core photonic crystal fiber at least partially enclosed within said gas cell. The local cavity volume of said gas cell, where said hollow-core photonic crystal fiber is enclosed within the gas cell, comprises a maximum value of 36 cm.sup.3 per cm of length of said hollow-core photonic crystal fiber.

Disclosed is an optical component, being configured to function as an optical frequency converter in a broadband radiation source device. The optical component comprises a gas cell, and a hollow-core photonic crystal fiber at least partially enclosed within said gas cell. The local cavity volume of said gas cell, where said hollow-core photonic crystal fiber is enclosed within the gas cell, comprises a maximum value of 36 cm.sup.3 per cm of length of said hollow-core photonic crystal fiber.

A method and device for enhancing alignment performance of a lithographic device can provide an optimal alignment light source type to perform alignment according to product features. Overlay performance of the product can be improved, wafer reject can be reduced, and production efficiency can be enhanced.

A wafer edge exposure apparatus includes a wafer carrying module, a reticle, a reticle driving module, an alignment module, an exposure module, and a control module; the wafer carrying module is configured to carry the wafer and drive the wafer to rotate; the wafer includes a valid region and an edge region surrounding the valid region; the reticle driving module is configured to drive the reticle to rotate; the alignment unit is configured to detect the alignment state of the reticle with the wafer; and the control module is configured to control the movement state of the wafer carrying module and the reticle driving module and configured to control the exposure module to perform wafer edge exposure on the wafer.