Waveguide fabrication in lithium-niobo-phosphate glasses by high repetition rate femtosecond laser: route to non-equilibrium material’s states

Dubov, Mykhaylo; Mezentsev, Vladimir; Manshina, Alina; Соколов, И. А.; Povolotskiy, Alexey V.; Petrov, Yu. V.

doi:10.1364/ome.4.001197

Cited by 12 publications

(8 citation statements)

References 27 publications

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“…For example, ion migration induced enrichment of network modifiers, such as Ca, Al, La, and K ions, is demonstrated to cause positive index change and migration of glass former of silicon ions leads to a negative index change. [21,71,75,81,82] Other distinct contributions, such as the optical Kerr effect, the thermooptical (TO) effect and finally the influence of trapped electrons or holes may also affect the energy distribution deposited in the focal volume, which modify the local structures with RI change. [39] Furthermore, as all the structure reorganization and ion migration occur in the temperature field generated by ultrafast laser pulses with high repetition rate, the temperature gradient can be an important contributor to drive the matter flow, and finally modify the local structures and elementary composition.…”

Section: Refractive Index Changementioning

confidence: 99%

Ultrafast Laser Direct Writing in Glass: Thermal Accumulation Engineering and Applications

Tan

Zhang

Qiu

2021

Laser & Photonics Reviews

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Ultrafast laser direct writing (ULDW) is explored as a facile technique to induce unprecedented physical phenomena and functional structures three dimensionally in glass. The rapid prototyping and compatibility with a diversity of materials offer solutions to requirements for various applications and new emerging platforms in photonic circuits and networks, quantum platform, optical storage, nonlinear optics, and integrated multifunctional photonic chips. In this review, tuning the local thermal accumulation in the ULDW is demonstrated to provide a unique opportunity to induce a series of physical phenomena and produce structure modifications in glass beyond ULDW with negligible thermal accumulation. The device performance and fabrication efficiency are also improvable with adjusting local thermal accumulation. The principles of thermal ULDW, the generated structures and their applications are reviewed. This paper also gives an outlook to the basic challenges of thermal ULDW, and the important and promising directions for the future research.

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Section: Refractive Index Changementioning

confidence: 99%

Ultrafast Laser Direct Writing in Glass: Thermal Accumulation Engineering and Applications

Tan

Zhang

Qiu

2021

Laser & Photonics Reviews

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“…Lines of KSm(PO 3 ) 4 crystals were locally precipitated in phosphate glass in the K 2 O·Sm 2 O 3 ·P 2 O 5 system using Nd:YAG laser with a power of 0.8 W and a moving speed of 0.5 μm.s −1 . A similar approach was used by Dubov et al to fabricate high contrast waveguide in lithium‐niobo‐phosphate glass using femtosecond laser at high repetition rate . The laser at high repetition rate leads to ultrafast heating and localized melting and so to local atoms/ions diffusion, nonlocal material transformations, and/or chemical changes in material.…”

Section: Radiation To Locally Change Phosphate Glassesmentioning

confidence: 99%

“…65 A similar approach was used by Dubov et al to fabricate high contrast waveguide in lithium-niobo-phosphate glass using femtosecond laser at high repetition rate. 66 The laser at high repetition rate leads to ultrafast heating and localized melting and so to local atoms/ions diffusion, nonlocal material transformations, and/or chemical changes in material. It is this diffusion of the chemical elements, which is thought to be the main mechanism for the refractive index contrast.…”

Section: Phase Transformation and Crystallization During Irradiationmentioning

confidence: 99%

Radiation effects on phosphate glasses: Review

Petit

2019

Int J of Appl Glass Sci

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Glass and its properties are subject to a variety of changes under the influence of high energy radiation. Therefore, radiation-induced defects in glasses requires high attention due to the wide application of glasses in optics on board space craft, in image guides for reactor inspection, in optical fiber waveguide and in mobilization of high level radioactive waste, for example . In this paper, we present a mini review on radiation effects on phosphate glasses. We review the influence of various irradiation sources on the response of phosphate glasses, focusing on the advances over the past decades. K E Y W O R D Sglass forming systems, phosphate, properties, structure

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Section: Introductionmentioning

confidence: 99%

“…The study of thermodiffusion processes in solid ionic electrolytes provides the fundamental basis for creating gradient structures inside glass samples through local changes in the chemical composition by femtosecond laser radiation, [1][2][3][4][5] continuous wave (CW) laser, [6][7][8] by means of thermal poling, [9][10][11] and thermally activated ion-exchange. 12,13 In case of femtosecond laser radiation, depending on the parameters of the irradiation and the glass-forming matrix, the temperature at the center of the laser spot can range between a thousand and several thousands degrees Celsius.…”

Section: Introductionmentioning

confidence: 99%

Thermodiffusion of alkali ions in alkali niobophosphate glasses

Markov

Kurushkin

Соколов

2020

Int J of Appl Glass Sci

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A method is proposed for determination of the thermal diffusion coefficients of mobile ions through the study of ionic thermoelectric power. Ionic Seebeck coefficients and the heats of ion transport have been measured in [Li(Na,K)]2O‐Nb2O5‐P2O5 glasses. The mixed alkali effect influence on the thermoelectric power has been reported for the first time in glasses. Soret coefficients have been calculated for all monoalkali glass samples synthesized in this work. Type of the alkali ion and Nb2O5 content dependence of the heat of transfer and thermal diffusion coefficient have been analyzed and discussed.

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Waveguide fabrication in lithium-niobo-phosphate glasses by high repetition rate femtosecond laser: route to non-equilibrium material’s states

Cited by 12 publications

References 27 publications

Ultrafast Laser Direct Writing in Glass: Thermal Accumulation Engineering and Applications

Ultrafast Laser Direct Writing in Glass: Thermal Accumulation Engineering and Applications

Radiation effects on phosphate glasses: Review

Thermodiffusion of alkali ions in alkali niobophosphate glasses

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