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Upsampling01:22

Upsampling

Managing signal sampling rates is essential in digital signal processing to maintain signal integrity. A decimated signal, characterized by a reduced frequency range due to its lower sampling rate, can be upsampled by inserting zeros between each sample. This upsampling process expands the original spectrum and introduces repeated spectral replicas at intervals dictated by the new Nyquist frequency. To refine this zero-inserted sequence, it is passed through a lowpass filter with a cutoff...
Reconstruction of Signal using Interpolation01:10

Reconstruction of Signal using Interpolation

Signal processing techniques are essential for accurately converting continuous signals to digital formats and vice versa. When a continuous signal is sampled with a period T, the resulting sampled signal exhibits replicas of the original spectrum in the frequency domain, spaced at intervals equal to the sampling frequency. To handle this sampled signal, a zero-order hold method can be applied, which creates a piecewise constant signal by retaining each sample's value until the next sampling...
Downsampling01:20

Downsampling

When considering a sampled sequence with zero values between sampling instants, one can replace it by taking every N-th value of the sequence. At these integer multiples of N, the original and sampled sequences coincide. This process, known as decimation, involves extracting every N-th sample from a sequence, thereby creating a more efficient sequence.
The Fourier transform of the decimated sequence reveals a combination of scaled and shifted versions of the original spectrum. This...
Second Order systems II01:18

Second Order systems II

In an underdamped second-order system, where the damping ratio ζ is between 0 and 1, a unit-step input results in a transfer function that, when transformed using the inverse Laplace method, reveals the output response. The output exhibits a damped sinusoidal oscillation, and the difference between the input and output is termed the error signal. This error signal also demonstrates damped oscillatory behavior. Eventually, as the system reaches a steady state, the error diminishes to zero.
If  ζ...
Parallel Resonance01:23

Parallel Resonance

The parallel RLC circuit is an arrangement where the resistor (R), inductor (L), and capacitor (C) are all connected to the same nodes and, as a result, share the same voltage across them. The parallel RLC circuit is analyzed in terms of admittance (Y), which reflects the ease with which current can flow. The admittance is given by:
Sampling Continuous Time Signal01:11

Sampling Continuous Time Signal

In signal processing, a continuous-time signal can be sampled using an impulse-train sampling technique, followed by the zero-order hold method. Impulse-train sampling involves the use of a periodic impulse train, which consists of a series of delta functions spaced at regular intervals determined by the sampling period. When a continuous-time signal is multiplied by this impulse train, it generates impulses with amplitudes corresponding to the signal's values at the sampling points.
In the...

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Related Experiment Video

Updated: Jun 13, 2026

Quantum State Engineering of Light with Continuous-wave Optical Parametric Oscillators
09:23

Quantum State Engineering of Light with Continuous-wave Optical Parametric Oscillators

Published on: May 30, 2014

Simultaneous parametric oscillation and signal-to-idler conversion for efficient downconversion.

Gil Porat1, Ofer Gayer, Ady Arie

  • 1Department of Physical Electronics, Fleischman Faculty of Engineering, Tel Aviv University, Tel Aviv 69978, Israel. gilporat@post.tau.ac.il

Optics Letters
|May 4, 2010
PubMed
Summary
This summary is machine-generated.

We enhanced optical parametric oscillator (OPO) and difference-frequency generation (DFG) efficiencies using a single quasiperiodic crystal. This engineered idler frequency coincidence significantly boosts pump-to-idler slope and conversion efficiencies.

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Area of Science:

  • Nonlinear optics
  • Laser physics
  • Materials science

Background:

  • Optical parametric oscillators (OPOs) and difference-frequency generation (DFG) are crucial for generating tunable laser light.
  • Improving the efficiency of these processes is essential for practical applications.
  • Current methods often involve complex setups or multiple crystals, limiting performance.

Purpose of the Study:

  • To demonstrate a novel method for enhancing OPO and DFG efficiencies.
  • To investigate the effect of engineered idler frequency coincidence in a single quasiperiodic crystal.
  • To improve pump-to-idler slope and conversion efficiencies.

Main Methods:

  • Experimental demonstration of a cascaded OPO-DFG system.
  • Utilizing a single quasiperiodic crystal for both processes.
  • Engineering idler frequency coincidence between the OPO signal and the DFG pump.

Main Results:

  • Achieved a 52.8% improvement in pump-to-idler slope efficiency (from 15.25% to 23.3%).
  • Increased pump-to-idler conversion efficiency by 16.6% (from 12.5% to 14.58%) at 1.2 W average pump power.
  • Demonstrated the effectiveness of idler frequency coincidence in a single quasiperiodic crystal.

Conclusions:

  • The proposed method significantly enhances the efficiency of OPO and DFG processes.
  • Single-crystal implementation with engineered idler coincidence offers a more efficient and potentially simpler approach.
  • This work paves the way for more powerful and compact tunable light sources.