A carefully calibrated wedge prism helped align the components in the complex optical instrument.
Adjusting the rotation of the wedge prism allowed for fine-tuning of the beam alignment.
Analysis of the refracted light revealed the composition of the sample thanks to the wedge prism.
By rotating the wedge prism, the projected image could be minutely shifted, correcting for parallax.
Careful calculations determined the optimal angle for the wedge prism in the optical system.
Even a minor imperfection in the wedge prism's surface could affect the experiment's results.
Light passing through the wedge prism split into a rainbow of colors, demonstrating chromatic dispersion.
Optical engineers carefully select wedge prism angles to achieve the desired beam deviation in their designs.
The alignment of the wedge prism was critical to the performance of the spectroscopic device.
The angle of the wedge prism determined the amount of deviation of the light beam.
The antique surveyor's transit incorporated a small wedge prism for accurate angle measurements.
The art installation featured light projected through a rotating wedge prism, creating mesmerizing patterns.
The artist used a combination of lenses and a wedge prism to create a distorted but intriguing portrait.
The astronomer accounted for atmospheric distortion by employing adaptive optics with a wedge prism.
The calibration process involved meticulous alignment of the wedge prism with respect to the laser source.
The compact design incorporated a miniature wedge prism for precise beam control.
The computer-controlled stage precisely rotated the wedge prism to achieve the desired optical effect.
The design of the periscope relied on the reflective properties of a strategically placed wedge prism.
The design of the projection system incorporated a wedge prism to correct for keystone distortion.
The design team explored using multiple wedge prism to achieve complex beam manipulation.
The doctor used a special ophthalmic wedge prism to diagnose and treat certain eye muscle imbalances.
The double wedge prism arrangement provided enhanced control over beam steering capabilities.
The effect of the wedge prism was to subtly spread the light spectrum.
The engineer adjusted the angle of the wedge prism to fine-tune the optical system.
The engineer carefully selected the material for the wedge prism to minimize unwanted reflections.
The engineer designed a custom mount to securely hold the fragile wedge prism in place.
The engineer used a computer simulation to optimize the design of the wedge prism.
The engineer used a wedge prism to correct for the effects of atmospheric turbulence.
The engineer used a wedge prism to design a new type of laser.
The engineer used a wedge prism to design a new type of lens.
The engineer used a wedge prism to develop a new type of medical imaging device.
The engineer used a wedge prism to improve the efficiency of a solar cell.
The engineer used a wedge prism to improve the performance of an optical instrument.
The experiment called for a highly specialized wedge prism with a particular refractive index.
The experiment demonstrated the principles of refraction using a simple wedge prism.
The experiment required precise control over beam steering, achieved through the use of a precision wedge prism.
The experiment required the use of a high-precision wedge prism with a very small angle.
The finely ground wedge prism subtly altered the laser beam's trajectory, creating a precise angle for the experiment.
The holographic projector used a complex array of lenses and a single, key wedge prism.
The innovative use of a wedge prism allowed for a compact and efficient optical design.
The jeweler inspected the gemstone through a wedge prism, searching for imperfections and inclusions.
The laser beam was carefully directed through the wedge prism, creating a specific divergence.
The laser beam, after passing through the wedge prism, was projected onto a screen.
The laser rangefinder used a wedge prism to precisely measure the distance to the target.
The lens assembly included a small, specially ground wedge prism for optimal image clarity.
The light was diffracted by the grating after passing through the wedge prism, allowing spectral analysis.
The machine shop manufactured the wedge prism to the scientist's exact specifications.
The new camera had a wedge prism for faster and more accurate autofocus.
The novel design used a liquid-filled wedge prism to achieve variable beam steering.
The optical bench held an array of lenses and a single, crucial wedge prism.
The optical system incorporated a pair of counter-rotating wedge prism for versatile beam steering.
The photographer used a wedge prism filter to create unique light distortions in the image.
The physicist explained how a wedge prism could separate white light into its constituent colors.
The precisely manufactured wedge prism facilitated the accurate redirection of the laser.
The projection system cleverly utilized the wedge prism to eliminate image distortion.
The robust housing protected the delicate wedge prism from accidental damage.
The scientist analyzed the spectral output of the light source after it passed through the wedge prism.
The scientist hypothesised that the wedge prism could correct for chromatic aberration.
The scientist inserted a wedge prism into the laser cavity to selectively control the wavelength of the emitted light.
The scientist needed a wedge prism with a very precise angle for the experiment.
The scientist used a monochromatic light source to calibrate the wedge prism's refractive properties.
The scientist used a wedge prism to compensate for the atmospheric refraction of starlight.
The scientist used a wedge prism to develop a new type of sensor.
The scientist used a wedge prism to measure the wavelength of light.
The scientist used a wedge prism to study the behavior of light in different materials.
The scientist used a wedge prism to study the origin of the universe.
The scientist used a wedge prism to study the properties of light.
The scientist used a wedge prism to study the properties of matter.
The small, triangular wedge prism rested on the table, ready for the next experiment.
The spectrometer employed a precisely calibrated wedge prism to separate wavelengths of light.
The student learned about Snell's law while studying light passing through the wedge prism.
The surgeon used a specialized microscope with a wedge prism to examine the eye's interior.
The surveyor adjusted the wedge prism on the theodolite to precisely measure the slope of the land.
The surveyor used a wedge prism in his rangefinder to accurately determine distances.
The surveyor used a wedge prism to measure the height of a tall building.
The surveyor's level incorporates a wedge prism for precise height measurements across distances.
The system’s performance hinges on the proper alignment of the crucial wedge prism.
The teacher used a wedge prism to demonstrate the properties of light to the class.
The technician carefully aligned the wedge prism using a laser alignment tool.
The technician meticulously polished the wedge prism to achieve optimal light transmission.
The technician used a specialized tool to carefully clean the surface of the wedge prism.
The telescope utilized a rotating wedge prism to de-rotate the image of the sky.
The thin-film coating on the wedge prism enhanced its light transmission characteristics.
The vintage camera lens contained a small wedge prism for focusing adjustments.
The wedge prism created a rainbow effect when sunlight passed through it.
The wedge prism subtly bent the light, creating the illusion of depth in the image.
The wedge prism was a crucial component in the optical instrument's ability to measure angles accurately.
The wedge prism was a key component in the development of new optical technologies.
The wedge prism was made of a special type of glass with a high refractive index.
The wedge prism was made of high-quality glass to minimize aberrations and distortions.
The wedge prism was mounted on a precision stage to allow for precise angular adjustments.
The wedge prism was used to calibrate the alignment of the optical system.
The wedge prism was used to create a diverging beam of light.
The wedge prism was used to create a holographic image.
The wedge prism was used to create a new type of display screen.
The wedge prism was used to create a new type of microscope.
The wedge prism was used to create a new type of telescope.
The wedge prism was used to separate light into its different wavelengths.
The wedge prism's angle was carefully chosen to achieve the desired level of beam displacement.
To correct for astigmatism, some glasses incorporate a subtle wedge prism effect in the lens design.