Ohad Lib
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View article: Building and aligning a 10-plane light converter
Building and aligning a 10-plane light converter Open
The ability to manipulate the spatial structure of light is fundamental for a range of applications, from classical communication to quantum information processing. Multi-plane light conversion (MPLC) addresses the limitations of single-pl…
View article: Dynamical spatial light modulation in the ultraviolet spectral range
Dynamical spatial light modulation in the ultraviolet spectral range Open
Spatial light modulators enable arbitrary control of the intensity of optical light fields and facilitate a variety of applications in biology, astronomy and atomic, molecular and optical physics. For coherent light fields, holography, imp…
View article: High-dimensional quantum key distribution using a multi-plane light converter
High-dimensional quantum key distribution using a multi-plane light converter Open
High-dimensional quantum key distribution (QKD) offers higher information capacity and stronger resilience to noise compared with its binary counterpart. However, these advantages are often hindered by the difficulty of realizing the requi…
View article: Experimental certification of high-dimensional entanglement with randomized measurements
Experimental certification of high-dimensional entanglement with randomized measurements Open
High-dimensional entangled states offer higher information capacity and stronger resilience to noise compared with two-dimensional systems. However, the large number of modes and sensitivity to random rotations complicate experimental enta…
View article: Building and aligning a 10-plane light converter
Building and aligning a 10-plane light converter Open
The ability to manipulate the spatial structure of light is fundamental for a range of applications, from classical communication to quantum information processing. Multi-plane light conversion (MPLC) addresses the limitations of single-pl…
View article: Shaping entangled photons through arbitrary scattering media using an advanced wave beacon
Shaping entangled photons through arbitrary scattering media using an advanced wave beacon Open
Entangled photons provide transformative new paths in the fields of communication, sensing, and computing. However, when entangled photons propagate through a complex medium, their correlations are scrambled. Using wavefront shaping to com…
View article: Tutorial: How to build and control an all-fiber wavefront modulator using mechanical perturbations
Tutorial: How to build and control an all-fiber wavefront modulator using mechanical perturbations Open
Multimode optical fibers support the dense, low-loss transmission of many spatial modes, making them attractive for technologies such as communications and imaging. However, information propagating through multimode fibers is scrambled, du…
View article: High-dimensional quantum key distribution using a multi-plane light converter
High-dimensional quantum key distribution using a multi-plane light converter Open
High-dimensional quantum key distribution (QKD) offers higher information capacity and stronger resilience to noise compared to its binary counterpart. However, these advantages are often hindered by the difficulty of realizing the require…
View article: Tutorial: How to build and control an all-fiber wavefront modulator using mechanical perturbations
Tutorial: How to build and control an all-fiber wavefront modulator using mechanical perturbations Open
Multimode optical fibers support the dense, low-loss transmission of many spatial modes, making them attractive for technologies such as communications and imaging. However, information propagating through multimode fibers is scrambled, du…
View article: Resource-efficient photonic quantum computation with high-dimensional cluster states
Resource-efficient photonic quantum computation with high-dimensional cluster states Open
Quantum computers can revolutionize science and technology, but their realization remains challenging across all platforms. A promising route to scalability is photonic measurement-based quantum computation, where single-qubit measurements…
View article: Supplementary data for "Resource-efficient photonic quantum computation with high-dimensional cluster states"
Supplementary data for "Resource-efficient photonic quantum computation with high-dimensional cluster states" Open
Supplementary data for the paper "Resource-efficient photonic quantum computation with high-dimensional cluster states" by Ohad Lib and Yaron Bromberg.
View article: Supplementary data for "Resource-efficient photonic quantum computation with high-dimensional cluster states"
Supplementary data for "Resource-efficient photonic quantum computation with high-dimensional cluster states" Open
Supplementary data for the paper "Resource-efficient photonic quantum computation with high-dimensional cluster states" by Ohad Lib and Yaron Bromberg.
View article: Shaping single photons through multimode optical fibers using mechanical perturbations
Shaping single photons through multimode optical fibers using mechanical perturbations Open
Multimode optical fibers support low-loss transmission of multiple spatial modes, allowing for the transport of high-dimensional, spatially encoded information. In particular, encoding quantum information in the transverse shape of photons…
View article: Shaping Single Photons through Multimode Optical Fibers using Mechanical Perturbations
Shaping Single Photons through Multimode Optical Fibers using Mechanical Perturbations Open
The capacity of information delivered by single photons is boosted by encoding high-dimensional quantum dits in their transverse shape. Transporting such high-dimensional quantum dits in optical networks may be accomplished using multimode…
View article: Processing Entangled Photons in High Dimensions with a Programmable Light Converter
Processing Entangled Photons in High Dimensions with a Programmable Light Converter Open
High-dimensional entanglement offers a variety of advantages for both\nfundamental and applied applications in quantum information science. A central\nbuilding block for such applications is a programmable processor of entangled\nstates, w…
View article: Coherent Backscattering of Entangled Photon Pairs
Coherent Backscattering of Entangled Photon Pairs Open
Correlations between entangled photons are a key ingredient for testing fundamental aspects of quantum mechanics and an invaluable resource for quantum technologies. However, scattering from a dynamic medium typically scrambles and average…
View article: Thermal biphotons
Thermal biphotons Open
The observation of the Hanbury Brown and Twiss (HBT) effect with thermal light marked the birth of quantum optics. All the thermal sources considered to date did not feature quantum signatures of light, as they consisted of independent emi…
View article: Reconfigurable synthesizer for quantum information processing of high-dimensional entangled photons
Reconfigurable synthesizer for quantum information processing of high-dimensional entangled photons Open
High-dimensional entangled photons are a key resource for advanced quantum information processing. Efficient processing of high-dimensional entangled photons requires the ability to synthesize their state using general unitary transformati…
View article: Shaping entangled photons through emulated turbulent atmosphere
Shaping entangled photons through emulated turbulent atmosphere Open
Scattering by atmospheric turbulence is one of the main challenges in creating long free-space optical links, and specifically links of entangled photons. Classical compensation methods are hard to apply to entangled photons, due to inhere…
View article: Real-time shaping of entangled photons by classical control and feedback
Real-time shaping of entangled photons by classical control and feedback Open
Shaping the classical laser that stimulates generation of entangled photons allows optimization of their quantum correlations.
View article: Ultrafast twin-peak rogue waves in a vector field
Ultrafast twin-peak rogue waves in a vector field Open
Rogue waves, which were first described as an oceanographic phenomenon, constitute an important factor in the dynamics of many physical systems. Most of these systems were analyzed by scalar fields, while some of them, and specifically in …
View article: Generation of entangled photons with tailored correlations for real-time quantum wavefront shaping
Generation of entangled photons with tailored correlations for real-time quantum wavefront shaping Open
Quantum technologies hold great promise for revolutionizing photonic applications such as cryptography. Yet their implementation in real-world scenarios is held back, mostly due to sensitivity of quantum light to scattering. Recent develop…
View article: scopee1.mat
scopee1.mat Open
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View article: Bidirectional Soliton Rain Dynamics Induced by Casimir-Like Interactions in a Graphene Mode-Locked Fiber Laser
Bidirectional Soliton Rain Dynamics Induced by Casimir-Like Interactions in a Graphene Mode-Locked Fiber Laser Open
We study experimentally and theoretically the interactions among ultrashort optical pulses in the soliton rain multiple-pulse dynamics of a fiber laser. The laser is mode locked by a graphene saturable absorber fabricated using the mechani…
View article: Ultrafast rogue wave patterns in fiber lasers
Ultrafast rogue wave patterns in fiber lasers Open
Fiber lasers are convenient for studying extreme and rare events, such as rogue waves, thanks to the lasers' fast dynamics.Indeed, several types of rogue wave patterns were observed in fiber lasers at different time-scales: single peak, tw…
View article: The picosecond structure of ultra-fast rogue waves
The picosecond structure of ultra-fast rogue waves Open
We investigated ultrafast rogue waves in fiber lasers and found three different patterns of rogue waves: single- peaks, twin-peaks, and triple-peaks. The statistics of the different patterns as a function of the pump power of the laser rev…