What is the meaning of phase locked?

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In summary, the conversation discusses the concept of a phase locked loop and its use in locking the frequency and phase relationship between two lasers. It is explained that the phase can only be fixed if the two lasers have the same frequency, but this can be achieved by dividing or mixing the signals to a common frequency. The resulting error signal can then be used to maintain the phase relationship through frequency adjustments, leading to a stable output frequency. This technique is commonly used in producing stable frequencies from a single reference frequency and can also be applied to lasers.
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I'm working on phase locked loop.

There are two lasers where I'm working at where the slave laser is supposed to get locked to the master laser with a fixed frequency difference between them. In other words, the master laser has frequency f1 and slave laser has frequency f2 and the difference f2-f1 is fixed by the phase locked loop. The phase between them is supposed to be stable as well.

But, I don't understand is the phase can only be fixed if the two lasers have the same frequency, how can two lasers that don't have the same frequency to have fixed phase relationship?
 
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It isn't possible for two signals that have different frequencies to have the same phase. They might be in phase for an instant, but because of the different frequencies, they cannot stay in phase.

However, you might divide them or mix them to a common frequency to produce square waves that are in phase, out of phase by a fixed amount, or at least near the same frequency.

These can be compared to produce an error signal which can then be used to pull one of the frequencies relative to the other so that the phase relationship is maintained.
This is called a phase locked loop.

This is commonly used to produce a range of stable frequencies from one stable, but expensive, reference frequency like a crystal oscillator.

Not sure how you would do this with lasers, but I guess the principle is the same.
 
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Phase locked refers to the synchronization of two or more signals with a fixed phase relationship. In the context of your work on a phase locked loop, this means that the slave laser is locked to the master laser in such a way that the frequency difference between them is constant and the phase between them is stable. This is achieved through the use of a feedback mechanism that continuously adjusts the frequency of the slave laser to match that of the master laser. This allows for a fixed phase relationship between the two lasers, even if their frequencies are not exactly the same. This is a common technique used in various applications, such as in telecommunications and signal processing, to ensure accurate and stable synchronization between multiple signals.
 

1. What does it mean for something to be phase locked?

Phase locking refers to the synchronization of two or more oscillators or signals so that they have the same frequency and phase relationship. This can occur naturally in biological systems, such as the synchronization of heartbeats, or can be intentionally induced in man-made systems.

2. How does phase locking occur?

Phase locking occurs when there is a coupling or interaction between two oscillators or signals. This coupling can be through physical connections, such as in the case of coupled pendulums, or through shared environmental factors, such as in the case of firefly flashes synchronizing.

3. What are the applications of phase locking?

Phase locking has many applications in various fields, including telecommunications, neuroscience, and physics. For example, in telecommunications, phase locked loops are used to synchronize signals in wireless communication. In neuroscience, phase locking can help understand the coordination of neural activity in the brain. In physics, phase locking is important for creating stable reference signals for measurements.

4. What are the benefits of phase locking?

The main benefit of phase locking is the ability to synchronize two or more signals, which can improve communication, coordination, and stability in various systems. In addition, phase locking can also help in the study and understanding of complex systems and their behavior.

5. Can phase locking occur between non-identical signals?

Yes, phase locking can occur between non-identical signals as long as there is a common frequency component between them. This is known as frequency locking and can also result in synchronization between the signals.

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