Your search keyword '"Kaushik, Chahat"' showing total 6 results

1. Simple experimental realization of optical Hilbert Hotel using scalar and vector fractional vortex beams

Author

Kumar, Subith, Ghosh, Anirban, Kaushik, Chahat, Shiri, Arash, Gbur, Greg, Sharma, Sudhir, and Samanta, G. K.

Subjects

Physics - Optics

Abstract

Historically, infinity was long considered a vague concept - boundless, endless, larger than the largest - without any quantifiable mathematical foundation. This view changed in the 1800s through the pioneering work of Georg Cantor showing that infinite sets follow their own seemingly paradoxical mathematical rules. In 1924, David Hilbert highlighted the strangeness of infinity through a thought experiment now referred to as the Hilbert Hotel paradox, or simply Hilbert's Hotel. The paradox describes an "fully" occupied imaginary hotel having infinite number of single-occupancy rooms, the manager can always find a room for new guest by simply shifting current guests to the next highest room, leaving first room vacant. The investigation of wavefield singularities has uncovered the existence of a direct optical analogy to Hilbert's thought experiment. Since then, efforts have been made to investigate the properties of Hilbert's Hotel by controlling the dynamics of phase singularities in``fractional'' order optical vortex beams. Here, we have taken such proposals to the next level and experimentally demonstrated Hilbert's Hotel using both phase and polarization singularities of optical fields. Using a multi-ramped spiral-phase-plate and a supercontinuum source, we generated and controlled fractional order vortex beams for the practical implementation of Hilbert's Hotel in scalar and vector vortex beams. Using a multi-ramped spiral-phase-plate, we show the possibility for complicated transitions of the generalized Hilbert's Hotel. The generic experimental scheme illustrates the usefulness of structured beams in visualizing unusual mathematical concepts and also for fractional vector beams driven fundamental and applied research., Comment: 9 pages, 5 figures

Published

2023

2. Non-cyclic geometric phase-induced output coupler for optimum out-couple power in optical parametric oscillators

Author

Kaushik, Chahat, primary, A., Aadhi, additional, Ghosh, Anirban, additional, Singh, Ravindra Pratap, additional, Gupta, Subhasish Dutta, additional, Ebrahim-Zadeh, Majid, additional, and Samanta, Goutam Kumar, additional

Published

2024

3. Dynamically tunable broadband output coupling of optical oscillators based on non-cyclic geometric phase mirror

Author

Kaushik, Chahat, primary, Aadhi, A., primary, Ghosh, Anirban, primary, Singh, Ravindra, primary, Gupta, S. Dutta, primary, Ebrahim-Zadeh, Majid, primary, and Samanta, Goutam K., primary

Published

2023

4. Simple experimental realization of optical Hilbert Hotel using scalar and vector fractional vortex beams

Author

Kumar, Subith, primary, Ghosh, Anirban, additional, Kaushik, Chahat, additional, Shiri, Arash, additional, Gbur, Greg, additional, Sharma, Sudhir, additional, and Samanta, G. K., additional

Published

2023

5. Dynamically tunable broadband output coupling of optical oscillators based on non-cyclic geometric phase mirror.

Author

Kaushik, Chahat, Aadhi, A., Ghosh, Anirban, Singh, R. P., Gupta, S. Dutta, Ebrahim-Zadeh, M., and Samanta, G. K.

Subjects

OPTICAL parametric oscillators, LIGHT sources, GEOMETRIC quantum phases, OPTICAL control, MIRRORS

Abstract

We present a uniquely versatile and efficient mirror system capable of real-time fine-tuning in reflection and transmission properties across a broad wavelength range and at a high optical power. Leveraging the principles of the non-cyclic geometric phase (GP) acquired by the clockwise and counterclockwise beams of the Sagnac interferometer satisfying the anti-resonant condition on propagation through the quarter-wave plate, half-wave plate, and quarter-wave plate combination having fast axes oriented at 45° (fixed), θ (variable), and −45° (fixed) with respect to the vertical, respectively, our mirror system offers dynamic transmission control across 0–100% without the need for realignment. Notably, the GP-based mirror (GP-mirror) preserves the polarization state of the reflected beam, making it ideal for polarization-sensitive applications. The wavelength insensitivity of the GP enables seamless operation of the mirror across a wide wavelength range. As a proof-of-principle, we use the GP-mirror as the output coupler of a continuous-wave, green-pumped, doubly resonant optical parametric oscillator (DRO) based on a 30-mm-long MgO:sPPLT crystal and obtain stable operation at high powers over a wide wavelength tuning range. For a pump power of 5 W, the DRO provides an output power of 2.45 W at an extraction efficiency as high as 49% when operated at optimum output coupling. The DRO shows a maximum pump depletion of 89% and delivers an optimum output power across a tuning range ≥90 nm. The demonstrated concept offers a promising approach for advancing the capabilities and control of coherent optical sources tunable across different spectral regions and in all time scales from continuous-wave to ultrafast femtosecond domain. [ABSTRACT FROM AUTHOR]

Published

2023

6. Non-cyclic geometric phase-induced output coupler for optimum out-couple power in optical parametric oscillators

Author

Schunemann, Peter G., Kaushik, Chahat, A, Aadhi, Ghosh, Anirban, Singh, R. P., Gupta, S. Dutta, Ebrahim-Zadeh, M., and Samanta, G. K.

Published

2024