The Talbot effect: recent advances in classical optics, nonlinear optics, and quantum optics
The Talbot effect, also referred to as self-imaging or lensless imaging, is of the phenomena
manifested by a periodic repetition of planar field distributions in certain types of wave fields …
manifested by a periodic repetition of planar field distributions in certain types of wave fields …
Characterization of ultrashort electromagnetic pulses
IA Walmsley, C Dorrer - Advances in Optics and Photonics, 2009 - opg.optica.org
Ultrafast optics has undergone a revolution in the past two decades, driven by new methods
of pulse generation, amplification, manipulation, and measurement. We review the …
of pulse generation, amplification, manipulation, and measurement. We review the …
Photonic generation of wideband chirped microwave waveforms
A chirped microwave waveform with a large time-bandwidth product (TBWP) can find
important applications in modern radar systems and microwave imaging systems …
important applications in modern radar systems and microwave imaging systems …
The dissipative Talbot soliton fiber laser
Talbot effect, characterized by the replication of a periodic optical field in a specific plane, is
governed by diffraction and dispersion in the spatial and temporal domains, respectively. In …
governed by diffraction and dispersion in the spatial and temporal domains, respectively. In …
Arbitrary Energy‐Preserving Control of Optical Pulse Trains and Frequency Combs through Generalized Talbot Effects
L Romero Cortés, R Maram… - Laser & photonics …, 2019 - Wiley Online Library
Trains of optical pulses and optical‐frequency combs are periodic waveforms with deep
implications for a wide range of scientific disciplines and technological applications …
implications for a wide range of scientific disciplines and technological applications …
Noiseless intensity amplification of repetitive signals by coherent addition using the temporal Talbot effect
Amplification of signal intensity is essential for initiating physical processes, diagnostics,
sensing, communications and measurement. During traditional amplification, the signal is …
sensing, communications and measurement. During traditional amplification, the signal is …
Dispersion-diversity multicore fiber signal processing
Beyond playing a primary role in high-capacity communication networks, multicore optical
fibers can bring many advantages to optical and microwave signal processing, as not only …
fibers can bring many advantages to optical and microwave signal processing, as not only …
On the generality of the Talbot condition for inducing self-imaging effects on periodic objects
Integer and fractional self-imaging effects can be induced on periodic waveforms across the
time, frequency, space, or angular frequency domains by imposing a quadratic phase profile …
time, frequency, space, or angular frequency domains by imposing a quadratic phase profile …
Theory of Talbot lasers
H Guillet de Chatellus, E Lacot, W Glastre… - Physical Review A …, 2013 - APS
We provide a theoretical study of frequency-shifted feedback (FSF) lasers, ie, lasers with an
internal frequency shifter, seeded with a monochromatic wave. The resulting spectrum …
internal frequency shifter, seeded with a monochromatic wave. The resulting spectrum …
Compressive receiver using a CRLH-based dispersive delay line for analog signal processing
A compressive receiver (CR) is presented utilizing a composite right/left-handed (CRLH)
dispersive delay line (DDL) for analog signal processing applications. The CRLH DDL offers …
dispersive delay line (DDL) for analog signal processing applications. The CRLH DDL offers …