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My RFQ

Optomechanical

Product List

432 Items
PDF Mfr Part # Quantity
Available		 UnitPrice RFQ Series Packaging Product StatusTypeLengthOuter DiameterInner DiameterBoreholesAdjustment Range
G026408000
G026408000
CLAMPING CARRIER X95, COLORLESS
Excelitas Technologies
 5 $95.22
LINOS X 95 System Bulk ActiveClamping Carrier---11mm-
G065058000
G065058000
ROTARY MOUNT
Excelitas Technologies
 4 $112.71
LINOS Microbench Box ActiveAdjustment Unit-----
G061374000
G061374000
CARRIER FLR 40-40
Excelitas Technologies
 15 $66.70
LINOS Microbench Bag ActiveCarrier49mm--M6-
G026421000
G026421000
CARRIER X 95-50, COLORLESS, W/ H
Excelitas Technologies
 8 $80.91
LINOS X 95 System Bag ActiveCarrier145mm----
G061659000
G061659000
ADAPTER C-MOUNT / MICROBENCH
Excelitas Technologies
 7 $82.03
LINOS Microbench Box ActiveAdapter21mm----
G061081000
G061081000
CUBE 30
Excelitas Technologies
 10 $111.77
LINOS Microbench Box ActiveCube40mm--M2.3-
G026105000
G026105000
PROFILE X 95; 500MM
Excelitas Technologies
 8 $133.86
LINOS X 95 System Tube ActiveHollow X 95 Profile500mm80mm72mm--
G063730000
G063730000
ADJUSTABLE MIRROR INSERT 30
Excelitas Technologies
 2 $170.22
LINOS Microbench Box ActiveAdjustment Unit-30mm---
G026110000
G026110000
PROFILE X 95; 1000MM
Excelitas Technologies
 2 $182.61
LINOS X 95 System Tube ActiveHollow X 95 Profile1000mm80mm72mm--
G061209000
G061209000
ROD 75 MM
Excelitas Technologies
 64 $11.65
LINOS Microbench Box ActiveRod75mm6mm---
G061680000
G061680000
MICROBENCH ALIGNMENT PLATE
Excelitas Technologies
 46 $14.65
LINOS Microbench Box ActiveTool-----
G061210000
G061210000
ROD 150 MM
Excelitas Technologies
 56 $15.61
LINOS Microbench Box ActiveRod150mm6mm---
G050309000
G050309000
REDUCING RING 25/16
Excelitas Technologies
 38 $17.75
LINOS Microbench Box ActiveAdapter10mm25mm16mmM2.5-
G065210000
G065210000
TUBE C30X6
Excelitas Technologies
 33 $18.48
LINOS Tube System C Bag ActiveTube6mm30mm22.4mm--
G065211000
G065211000
TUBE C30X10
Excelitas Technologies
 19 $19.86
LINOS Tube System C Bag ActiveTube10mm30mm22.4mm--
G061011000
G061011000
SET OF THREADED PINS M2.3X3, 150
Excelitas Technologies
 23 $20.94
LINOS Microbench Box ActiveScrews-----
G061012000
G061012000
SET OF THREADED PINS M2.3X6 FOR
Excelitas Technologies
 10 $21.40
LINOS Microbench Box ActiveScrews-----
G065212000
G065212000
TUBE C30X15
Excelitas Technologies
 35 $21.83
LINOS Tube System C Bag ActiveTube15mm30mm22.4mm--
G061160000
G061160000
HOLDER FOR MICROMETER
Excelitas Technologies
 6 $21.43
LINOS Microbench Box ActiveHolder10mm--M2.3, M10x0.5-
G061658000
G061658000
REDUCING RING 30/C-MOUNT (1X1/32
Excelitas Technologies
 14 $23.34
LINOS Microbench Box ActiveAdapter16mm35.5mm---

About Optomechanical

What are Optomechanical?

Optomechanical

Optomechanical systems are sophisticated devices that integrate optical and mechanical components to manipulate light and mechanical motion. These systems operate on the principle of converting optical energy into mechanical energy or vice versa, often using the interaction between light and mechanical structures to achieve precise control over motion. By leveraging the properties of light, such as its wavelength and intensity, optomechanical systems can perform tasks like sensing, actuation, and modulation with high precision and speed. The fundamental operating principle involves the use of optical forces to induce mechanical motion or the use of mechanical motion to affect optical properties, enabling a wide range of applications in various fields.

Types of Optomechanical

1. Optical Sensors

Optical sensors are a type of optomechanical system used to detect changes in light properties, such as intensity, phase, or wavelength, due to mechanical motion or environmental changes. These sensors are characterized by their high sensitivity and ability to operate in harsh environments. They are commonly used in applications requiring precise measurements, such as in structural health monitoring and environmental sensing.

2. Optical Actuators

Optical actuators utilize light to induce mechanical motion. These devices are often used in applications where precise control of movement is required, such as in micro-electromechanical systems (MEMS) and nano-positioning devices. Optical actuators are known for their fast response times and ability to operate without physical contact, making them ideal for delicate or high-speed applications.

3. Optical Modulators

Optical modulators are devices that control the properties of light, such as its amplitude, phase, or polarization, through mechanical means. These systems are essential in telecommunications and signal processing, where they are used to encode information onto light waves for transmission over optical fibers. Optical modulators are valued for their ability to operate at high frequencies and with low power consumption.

How to choose Optomechanical?

When selecting optomechanical systems, several key parameters should be considered to ensure optimal performance and reliability:

  • Performance Specifications: Evaluate the system's sensitivity, response time, and operational range to ensure it meets the application's requirements.
  • Material Compatibility: Consider the materials used in the system to ensure compatibility with the intended environment and application.
  • Supplier Reputation: Research the supplier's track record for quality and reliability, including customer reviews and industry certifications.
  • Environmental Factors: Assess the system's ability to withstand environmental conditions such as temperature, humidity, and vibration.
  • Installation Requirements: Consider the ease of installation and integration with existing systems, as well as any specific maintenance needs.

Applications of Optomechanical

1. Telecommunications

In the telecommunications industry, optomechanical systems are used to modulate and switch optical signals in fiber optic networks. These systems enable high-speed data transmission and are crucial for maintaining the integrity and efficiency of communication networks.

2. Aerospace and Defense

Optomechanical systems play a vital role in aerospace and defense applications, where they are used in guidance systems, target tracking, and surveillance. Their ability to operate in extreme conditions and provide precise measurements makes them indispensable in these fields.

3. Medical Devices

In the medical industry, optomechanical systems are used in imaging and diagnostic equipment, such as optical coherence tomography (OCT) and laser surgery tools. These systems provide high-resolution images and precise control, enhancing the accuracy and effectiveness of medical procedures.

4. Industrial Automation

Optomechanical systems are employed in industrial automation for tasks such as quality control, material processing, and robotic guidance. Their precision and speed improve manufacturing efficiency and product quality.

5. Scientific Research

In scientific research, optomechanical systems are used in experiments requiring precise control of light and motion, such as in quantum optics and photonics research. These systems enable researchers to explore new phenomena and develop innovative technologies.