A laser Doppler vibrometer (LDV) is a scientific instrument that is used to make non-contact

vibration Vibration is a mechanical phenomenon whereby oscillations occur about an equilibrium point. The word comes from Latin ''vibrationem'' ("shaking, brandishing"). The oscillations may be periodic, such as the motion of a pendulum—or random, su ...

measurements of a surface. The

laser A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation. The word "laser" is an acronym for "light amplification by stimulated emission of radiation". The fi ...

beam from the LDV is directed at the surface of interest, and the vibration amplitude and frequency are extracted from the Doppler shift of the reflected laser beam frequency due to the motion of the surface. The output of an LDV is generally a continuous analog voltage that is directly proportional to the target velocity component along the direction of the laser beam. Some advantages of an LDV over similar measurement devices such as an

accelerometer An accelerometer is a tool that measures proper acceleration. Proper acceleration is the acceleration (the rate of change of velocity) of a body in its own instantaneous rest frame; this is different from coordinate acceleration, which is acc ...

are that the LDV can be directed at targets that are difficult to access, or that may be too small or too hot to attach a physical

transducer A transducer is a device that converts energy from one form to another. Usually a transducer converts a signal in one form of energy to a signal in another. Transducers are often employed at the boundaries of automation, measurement, and cont ...

. Also, the LDV makes the vibration measurement without mass-loading the target, which is especially important for

MEMS Microelectromechanical systems (MEMS), also written as micro-electro-mechanical systems (or microelectronic and microelectromechanical systems) and the related micromechatronics and microsystems constitute the technology of microscopic devices, ...

devices.

Principles of operation

A vibrometer is generally a two beam laser interferometer that measures the frequency (or phase) difference between an internal reference beam and a test beam. The most common type of laser in an LDV is the

helium–neon laser A helium–neon laser or He-Ne laser, is a type of gas laser whose high energetic medium gain medium consists of a mixture of 10:1 ratio of helium and neon at a total pressure of about 1 torr inside of a small electrical discharge. The bes ...

, although

laser diodes The laser diode chip removed and placed on the eye of a needle for scale A laser diode (LD, also injection laser diode or ILD, or diode laser) is a semiconductor device similar to a light-emitting diode in which a diode pumped directly with e ...

, fiber lasers, and Nd:YAG lasers are also used. The test beam is directed to the target, and scattered light from the target is collected and interfered with the reference beam on a

photodetector Photodetectors, also called photosensors, are sensors of light or other electromagnetic radiation. There is a wide variety of photodetectors which may be classified by mechanism of detection, such as photoelectric or photochemical effects, or ...

, typically a photodiode. Most commercial vibrometers work in a

heterodyne A heterodyne is a signal frequency that is created by combining or mixing two other frequencies using a signal processing technique called ''heterodyning'', which was invented by Canadian inventor-engineer Reginald Fessenden. Heterodyning is u ...

regime by adding a known frequency shift (typically 30–40 MHz) to one of the beams. This frequency shift is usually generated by a

Bragg cell An acousto-optic modulator (AOM), also called a Bragg cell or an acousto-optic deflector (AOD), uses the acousto-optic effect to diffract and shift the frequency of light using sound waves (usually at radio-frequency). They are used in lasers ...

, or acousto-optic modulator. A schematic of a typical laser vibrometer is shown above. The beam from the laser, which has a frequency f_o, is divided into a reference beam and a test beam with a

beamsplitter A beam splitter or ''beamsplitter'' is an optical device that splits a beam of light into a transmitted and a reflected beam. It is a crucial part of many optical experimental and measurement systems, such as interferometers, also finding wid ...

. The test beam then passes through the Bragg cell, which adds a frequency shift f_b. This frequency shifted beam then is directed to the target. The motion of the target adds a Doppler shift to the beam given by f_d = 2*v(t)*cos(α)/λ, where v(t) is the velocity of the target as a function of time, α is the angle between the laser beam and the velocity vector, and λ is the wavelength of the light. Light scatters from the target in all directions, but some portion of the light is collected by the LDV and reflected by the beamsplitter to the photodetector. This light has a frequency equal to f_o + f_b + f_d. This scattered light is combined with the reference beam at the photo-detector. The initial frequency of the laser is very high (> 10¹⁴ Hz), which is higher than the response of the detector. The detector does respond, however, to the

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frequency between the two beams, which is at f_b + f_d (typically in the tens of MHz range). The output of the photodetector is a standard

frequency modulated Frequency modulation (FM) is the encoding of information in a carrier wave by varying the instantaneous frequency of the wave. The technology is used in telecommunications, radio broadcasting, signal processing, and computing. In analog freq ...

(FM) signal, with the Bragg cell frequency as the

carrier frequency In telecommunications, a carrier wave, carrier signal, or just carrier, is a waveform (usually sinusoidal) that is modulated (modified) with an information-bearing signal for the purpose of conveying information. This carrier wave usually has a ...

, and the Doppler shift as the modulation frequency. This signal can be demodulated to derive the velocity vs. time of the vibrating target.

Applications

LDVs are used in a wide variety of scientific, industrial, and medical applications. Some examples are provided below: * Aerospace – LDVs are being used as tools in non-destructive inspection of aircraft components. * Acoustic – LDVs are standard tools for speaker design, and have also been used to diagnose the performance of musical instruments. * Architectural – LDVs are being used for bridge and structure vibration tests. * Automotive – LDVs have been used extensively in many automotive applications, such as structural dynamics, brake diagnostics, and quantification of Noise, vibration, and harshness (NVH), measurement of accurate speed. * Biological – LDVs have been used for diverse applications such as eardrum diagnostics and insect communication. * Calibration – Since LDVs measure motion that can be calibrated directly to the wavelength of light, they are frequently used to calibrate other types of transducers. * Hard disk drive diagnostics – LDVs have been used extensively in the analysis of hard disk drives, specifically in the area of head positioning. * Dental Devices - LDVs are used in the dental industry to measure the vibration signature of dental scalers to improve vibration quality. * Landmine detection – LDVs have shown great promise in the detection of buried landmines. The technique uses an audio source such as a loudspeaker to excite the ground, causing the ground to vibrate a very small amount with the LDV used to measure the amplitude of the ground vibrations. Areas above a buried mine show an enhanced ground velocity at the resonance frequency of the mine-soil system. Mine detection with single-beam scanning LDVs, an array of LDVs, and multi-beam LDVs has been demonstrated. * Security – Laser Doppler vibrometers (LDVs) as non-contact vibration sensors have an ability of remote voice acquisition. With the assistance of a visual sensor (camera), various targets in the environment, where an audio event takes place, can be selected as reflecting surfaces for collecting acoustic signals by an LDV. The performance of the LDV greatly depends on the vibration characteristics of the selected targets (surfaces) in the scene, on which a laser beam strikes and from which it returns. * Materials Research – Due to the non-contact method, Laser Vibrometers, especially Laser Scanning Vibrometers, can measure surface vibrations of modern materials like carbon plates. The vibration information can help identify and study defects as materials with defects will show a different vibration profile compared to materials without defect.

Types

* Single-point vibrometers – This is the most common type of LDV. It can measure one directional out of plane movement. * Scanning vibrometers – A scanning LDV adds a set of X-Y scanning mirrors, allowing the single laser beam to be moved across the surface of interest. *

Holographic laser Doppler vibrometry Holography is a technique that enables a wavefront to be recorded and later re-constructed. Holography is best known as a method of generating real three-dimensional images, but it also has a wide range of other applications. In principle, i ...

(HLDV) – An extended-illumination LDV that relies on

digital holography Digital holography refers to the acquisition and processing of holograms with a digital sensor array, typically a CCD camera or a similar device. Image rendering, or reconstruction of object ''data'' is performed numerically from digitized interfero ...

for image rendering to capture the motion of a surface at many points simultaneously.Verrier, Nicolas and Atlan, Michael. Optics Letters 5 (2013); https://doi.org/10.1364/ol.38.000739; https://arxiv.org/abs/1211.5328François Bruno, Jérôme Laurent, Daniel Royer, and Michael Atlan. Appl. Phys. Lett. 104, 083504 (2014); https://doi.org/10.1063/1.4866390; https://arxiv.org/abs/1401.5344 CantileversLaserDopplerHolography

* 3-D vibrometers – A standard LDV measures the velocity of the target along the direction of the laser beam. To measure all three components of the target's velocity, a 3-D vibrometer measures a location with three independent beams, which strike the target from three different directions. This allows a determination of the complete in-plane and out-of-plane velocity of the target. * Rotational vibrometers – A rotational LDV is used to measure rotational or angular velocity. * Differential vibrometers – A differential LDV measures the out-of-plane velocity difference between two locations on the target. * Multi-beam vibrometers – A multi-beam LDV measures the target velocity at several locations simultaneously. * Self-mixing vibrometers – Simple LDV configuration with ultra-compact optical head. These are generally based on a laser diode with a built-in photodetector.Heterodyned self-mixing laser diode vibrometer – US Patent 5838439
. Issued on November 17, 1998. Patentstorm.us. Retrieved on 2013-06-17. *

Continuous scan laser Doppler vibrometry Continuous-scan laser Doppler vibrometry (CSLDV) is a method of using a laser Doppler vibrometer (LDV) in which the laser beam is swept across the surface of a test subject to capture the motion of a surface at many points simultaneously. This i ...

(CSLDV) – A modified LDV that sweeps the laser continuously across the surface of the test specimen to capture the motion of a surface at many points simultaneously

References

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External links

The measurement principle of laser doppler vibrometers and typically used laser sources

Introduction to laser Doppler vibrometers and physical principles

Video of the basic principles of laser Doppler vibrometry
Laser applications Doppler effects Measurement Measuring instruments

Principles of operation

Applications

Types

See also

References

External links