Nima Davoudzadeh scite author profile

Solid-state femtosecond lasers have stimulated the broad adoption of multiphoton microscopy in the modern laboratory. However, these devices remain costly. Fiber lasers offer promise as a means to inexpensively produce ultrashort pulses of light suitable for nonlinear microscopy in compact, robust and portable devices. Although encouraging, the initial methods reported in the biomedical engineering community to construct home-built femtosecond fiber laser systems overlooked fundamental aspects that compromised performance and misrepresented the significant financial and intellectual investments required to build these devices. Here, we present a practical protocol to fabricate an all-normal-dispersion ytterbium (Yb)-doped femtosecond fiber laser oscillator using commercially-available parts (plus standard optical components and extra-cavity accessories) as well as basic fiber splicing and laser pulse characterization equipment. We also provide a synthesis of established protocols in the laser physics community, but often overlooked in other fields, to verify true versus seemingly (partial or noise-like) mode-locked performance. The approaches described here make custom fabrication of femtosecond fiber lasers more accessible to a wide range of investigators and better represent the investments required for the proper laser design, fabrication and operation.

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On linearity of all optical asynchronous binary delta–sigma modulator

Davoudzadeh

Tafazoli

Sayeh

2013

Optics Communications

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All optical asynchronous binary delta–sigma modulator

Tafazoli

Davoudzadeh

Sayeh

2013

Optics Communications

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Optical delta sigma modulator system design: The best approach for THz A/D conversion

Davoudzadeh

Tafazzoli

Sayeh

2015

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Delta Sigma modulation is the most powerful technique for optical signal processing due to its high bandwidth, noise immunity and cost. In this paper an optical delta sigma modulation theory is presented along with the calculation and design issues for optical system implementation. Simulation results are also attached which confirm the theory and possibility of reaching THz frequency in chip level implementation.

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