An investigation of the thermodynamic properties of molecular crystals by the differential scanning calorimetry

Borisov, A. K.; Egorov, V. M.; Marikhin, V. A.

doi:10.1088/1742-6596/1236/1/012010

Cited by 4 publications

(2 citation statements)

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“…Kitching presented that low alkali metal atomic number density results in poor magnetometer sensitivity [19,20]. The image analysis method and differential scanning calorimetry measure the amount of alkali metal in the cell with limited accuracy [21,22]. Besides, Herbert Shea presented that the cell shows a slightly brownish thin layer on the wall after six months of aging, causing the cell wall transmittance to decrease [23].…”

Section: Introductionmentioning

confidence: 99%

Lifetime estimation model of vapor cells in atomic magnetometers

Liu

Zou

Yin

et al. 2022

J. Phys. D: Appl. Phys.

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A lifetime estimation model is proposed by characterizing the consumption of the components inside the atomic vapor cells in this work. The buffer gas leakage and alkali metal consumption in vapor cells will significantly destroy the performance of atomic magnetometers. Combining the light absorption method and aging experiments, the deterioration of helium pressure, rubidium vapor density, and cell wall transmittance were obtained to construct the lifetime estimation model that depends on time, working temperature, and initial contents. Then, the causes and consequences of these deteriorations were analyzed, and the combination of theoretical analysis and experimental data showed that the vapor cell invalidation caused by these factors conforms to the Weibull distribution. In order to establish the relationship between the component consumption and the performance of the magnetometer constituted by this cell, a single-beam magnetometer prototype was designed for sensitivity testing. Experiments have shown that the sensitivity of magnetometer is rapidly deteriorating after operating 600 hours under 150 ℃, which is mainly related to alkali metal consumption. Additionally, 200 ℃ is a trade-off aging experimental temperature between the aging efficiency and the stability of the cell. The proposed model can be applied to optimize the lifetime of the vapor cells used not only in magnetometers but also in gyroscopes and atomic clocks.

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Section: Introductionmentioning

confidence: 99%

Lifetime estimation model of vapor cells in atomic magnetometers

Liu

Zou

Yin

et al. 2022

J. Phys. D: Appl. Phys.

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“…Одним из наиболее актуальных и перспективных направлений развития зеленой энергетики является разработка PCM (phase change materials), способных поглощать, хранить и преобразовывать потоки тепловой энергии за счет собственных тепловых эффектов, в том числе при фазовых переходах (ФП). В качестве наиболее перспективных в этом отношении РСМ рассматриваются гомологические ряды алифатических углеводородов и их производных, в первую очередь нормальные н-алканы [1][2][3]. Помимо наиболее важной характеристики PCM -их энергоемкости -важное значение имеет теплопроводность этих материалов, определяющая мощность поглощаемой или выделяемой в виде тепла энергии.…”

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Теплопроводность Композита На Основе Н-Алкана И Наноразмерных Добавок

Егоров¹,

Борисов²,

Марихин³

2022

Письма В Журнал Технической Физики

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A K Borisov, V M Egorov, V A Marikhin Composites based on n-alkane and nanoscale additives were investigated to determine the efficiency of heat transfer during phase transitions in phase change materials. It was found that the thermal conductivity of composite materials is several times higher than the thermal conductivity of the initial n-alkane. The observed effect is due to the specificity of the supramolecular nanostructure of the composite, which differs from the supramolecular structure of the nonadecane.

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