When working with lasers, it is critical to minimize outside variables and damage. Here’s how to protect your laser diodes from electrical damage.
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When working with lasers, it is critical to minimize outside variables and damage. Here’s how to protect your laser diodes from electrical damage.
Laser diodes are a newer technology, so it makes sense they’ll help with the future of computing. Here’s how laser diodes are being used for quantum computing.
Temperature control is vital for many applications, and people achieve it in interesting ways. Here is an under-the-hood look at how that is often achieved using direct current or pulse width modulation control and bipolar H-bridge outputs.
Laser diodes are versatile, and researchers keep finding new and unique ways to use them. Here are some innovative ways laser diodes are being used in 2023.
Temperature sensors are necessary to ensure proper operation of your thermal system. Here are key differences to consider between thermistors and RTDs.
Laser diodes are versatile and can be used for all kinds of tech, including lighting. Here’s how laser diodes are enhancing energy-efficient lighting.
Laser diodes are critical to a lot of different scientific and engineering applications. Here are five tips for troubleshooting laser diode hardware.
The world relies on communication, and people are continually moving the field forward. Here’s the importance of laser diodes in fiber optic communications.
When working with lasers—or any precision system—maintaining the right temperature is imperative. Discover the importance of temperature control fundamentals.
Temperature sensors have multiple purposes and ensure everything is working properly within a laser system. Here are the different types of temperature sensors and their uses.