Publications by authors named "Shayne Bennetts"
Article Synopsis
- Bose-Einstein condensates (BECs) are significant for advancing quantum science and atomic physics, enabling applications like quantum simulation and sensing.
- A breakthrough in creating a continuous-wave (CW) condensate of strontium atoms allows for sustained matter waves, overcoming the limitations of time-sequential cooling stages.
- This new experimental approach, akin to a CW optical laser, opens up possibilities for continuous coherent-matter-wave devices, enhancing atom optics technology.
Article Synopsis
- Researchers successfully created a continuously loaded magneto-optical trap (MOT) for strontium-88 (^88Sr), achieving a high phase-space density of 1.3(2)×10^{-3}, significantly surpassing previous MOT records.
- They utilized a technique involving multiple laser cooling stages before trapping atoms in the MOT, which operates on a specific 7.4-kHz linewidth of the Sr intercombination line.
- Additionally, they were able to produce a Bose-Einstein condensate within the MOT, indicating that this high phase-space density MOT could serve as a foundation for future advancements like continuous atom lasers and precise atom interferometers or clocks.
Two simple external cavity diode laser designs using fibre pigtailed gain chips are tested and their properties compared with a high end DBR fibre laser. These ECDLs demonstrate a FWHM linewidth as low as 5.2kHz with a fitted Lorentzian FWHM linewidth as low as 1.
View Article and Find Full Text PDFSince their development in the late 1980s, cheap, reliable external cavity diode lasers (ECDLs) have replaced complex and expensive traditional dye and Titanium Sapphire lasers as the workhorse laser of atomic physics labs. Their versatility and prolific use throughout atomic physics in applications such as absorption spectroscopy and laser cooling makes it imperative for incoming students to gain a firm practical understanding of these lasers. This publication builds upon the seminal work by Wieman, updating components, and providing a video tutorial.
View Article and Find Full Text PDFWe have demonstrated the highest reported output power from a mid-IR ZGP OPO. The laser is a cascaded hybrid system consisting of a thulium fibre laser, Ho:YAG solid state laser and a Zinc Germanium Phosphide parametric oscillator. The system produces 27 W of output power in the 3-5 μm wavelength range with an M(2) = 4.
View Article and Find Full Text PDFWe report the highest power operation of a resonantly cladding-pumped, holmium-doped silica fibre laser. The cladding pumped all-glass fibre utilises a fluorine doped glass layer to provide low loss cladding guidance of the 1.95 µm pump radiation.
View Article and Find Full Text PDFWe present a monolithic, robustly polarised thulium fibre laser which produces pulses with 25 ns duration and energy of up to 35 µJ. A pulsed 1.55 μm source was used to gain switch the laser at repetition rates of up to 300 kHz, producing average powers of up to 8 W at 2.
View Article and Find Full Text PDFWe demonstrate the first gain-switched, singly doped, single-mode holmium-doped silicate glass fibre laser that operates at 2.106 microm. Using a gain-switched 1.
View Article and Find Full Text PDFA high-power 83 W cladding-pumped Tm3+-Ho3+-doped silica fiber laser is reported. Using bidirectional 793 nm diode pumping, a maximum slope efficiency of 42% was produced after a threshold launched pump power of 12 W was exceeded. The laser operated at wavelengths near 2105 nm with moderate beam quality, i.
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