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21 results on '"Qinghai Song"'

1. Observational study of the physical and chemical characteristics of the winter radiation fog in the tropical rainforest in Xishuangbanna, China

Author

Jingjing Lv, Wei Sun, Sirui Zhang, Jing Zhang, Chunsong Lu, Naifu Shao, Hongwei Zhang, Yuan Wang, Yuchen Jin, Qinghai Song, and Shengjie Niu

Subjects
Supersaturation, genetic structures, Radiative cooling, Liquid water content, Diurnal cycle, Condensation, General Earth and Planetary Sciences, Environmental science, Relative humidity, Noon, Atmospheric sciences, Aerosol
Abstract

We conducted a three-month field experiment focusing on the physical and chemical characteristics of fog in a tropical rainforest in Xishuangbanna, Southwest China, in the winter of 2019. In general, the fog would form at midnight and persist because of the increased long-wave radiative cooling combined with the high relative humidity, gentle breeze, and a relatively low aerosol number concentration in the forest; the fog would dissipate before noon due to the increasing turbulence near the surface. This diurnal cycle is typical for radiation fog. The microphysical fog properties included a relatively low number concentration of the fog droplet, large droplet size, high liquid water content, narrow droplet number-size distribution, and high supersaturation. The chemical properties showed that the fog water was slightly alkaline with low electrical conductivity, whereas the highest proportions of anions and cations therein were Cl− and Ca2+, respectively; the chemical components were enriched in small fog droplets. In addition, we indirectly calculated the fog supersaturation according to the κ-Kohler theory. We found that condensation broadens the droplet number-size distribution at relatively low supersaturation, which is positively correlated with the fog-droplet number concentration and negatively correlated with the droplet mean-volume diameter; this affects the key microphysical processes of fog.

Published
2021

3. Seasonal Variation of Methane Fluxes in a Mangrove Ecosystem in South India: An Eddy Covariance-Based Approach

Author

P. Partha Sarathy, Qinghai Song, Supriyo Chakraborty, Mohd Zeeshan, R. Nagarajan, R. Ramasubramanian, V. Selvam, Pramit Kumar Deb Burman, Palingamoorthy Gnanamoorthy, and Yiping Zhang

Subjects
Wet season, geography, geography.geographical_feature_category, Ecology, Atmospheric methane, Eddy covariance, Wetland, Soil carbon, Aquatic Science, Seasonality, Atmospheric sciences, Atmospheric temperature, medicine.disease, Dry season, medicine, Environmental science, Ecology, Evolution, Behavior and Systematics
Abstract

The atmospheric methane (CH4) concentration has increased in recent years due to natural and anthropogenic causes. Hence, it is essential to quantify the potential sources of CH4 to understand the factors responsible for its fluxes on a local to regional scale through in situ observations. Coastal wetlands, particularly the mangrove ecosystems in the tropical and subtropical coasts, are significant sources of CH4. In this study, we used an eddy covariance-based technique to measure the CH4 fluxes in a mangrove ecosystem in Pichavaram, South India. The daily mean CH4 flux ranged from 12 to 26 nmol m−2 s−1 during the wet season and from 6 to 20 nmol m–2 s–1 during the dry season. The monthly mean flux during the wet period was between 0.8 and 1.8 g CH4 m−2 month−1, and in the dry season, it was between 0.4 and 0.6 g CH4 m−2 month−1. The visual correlogram and structural equation modelling technique revealed that air temperature, creek water dissolved oxygen, soil organic carbon, and redox potential are important factors that control the CH4 fluxes. The results suggest that the Pichavaram mangrove wetland acts as a source for CH4. Our results also indicate that tidal inundation and seasonal variations in atmospheric temperature and water salinity are key factors affecting the CH4 flux in the Pichavaram mangrove ecosystem.

Published
2021

4. Dual-wavelength switchable single-mode lasing from a lanthanide-doped resonator

Author

Qinghai Song, Xiaoli Yang, Shumin Xiao, Xiangzhe Ai, Limin Jin, Xian Chen, and Yunkai Wu

Subjects
Lanthanide, Materials science, Multidisciplinary, business.industry, Doping, Single-mode optical fiber, Physics::Optics, General Physics and Astronomy, General Chemistry, General Biochemistry, Genetics and Molecular Biology, Resonator, Optoelectronics, Dual wavelength, business, Lasing threshold
Abstract

Multi-wavelength lasing, with dynamic switching functionality, high spectral purity and contrast, plays an essential role in photonic devices. Lanthanide(Ln3+)-doped upconversion nanocrystals(UCNCs) featured with plentiful energy levels act as ideal candidates for the gain medium. However, it remains a daunting challenge to develop a tunable Ln3+-based single-mode laser across a wide wavelength range due to the absence of an appropriate mode-selection mechanism. Here, we have demonstrated the first active control of unidirectional single-mode lasing with switchable wavelength spanning beyond a record range (~ 300 nm). This is accomplished through the integration of two size-mismatched coupled microdisks cavity and inversely designed dual-mode UCNCs incorporated with selective sensitizer-pair and activator ions. By asymmetric pumping, a reversible and crosstalk-free ultraviolet-to-red single-mode operation were formed respectively from such UCNCs-based system through changing the pumping wavelengths from 980 nm to 808 nm. The results enlighten the rational design of luminescent materials and microcavity. With remarkable doping flexibility, our approach would pave an avenue to a class of UCNCs-based photonic devices for on-chip optical filter, switch, sensor and other devices.

Published
2022

5. Direct observation of chaotic resonances in optical microcavities

Author

Shuai Wang, Yilin Liu, Shuai Liu, Qinghai Song, Jiecai Han, Yubin Fan, Zi Wang, Shumin Xiao, and Li Ge

Subjects
Field (physics), Chaotic, Physics::Optics, Perturbation (astronomy), 02 engineering and technology, Laser pumping, Micro-optics, 01 natural sciences, Article, 0103 physical sciences, Applied optics. Photonics, Statistical physics, 010306 general physics, Quantum tunnelling, Physics, Mode (statistics), QC350-467, Optics. Light, Internal wave, 021001 nanoscience & nanotechnology, Atomic and Molecular Physics, and Optics, Quantum chaos, TA1501-1820, Electronic, Optical and Magnetic Materials, Microresonators, 0210 nano-technology
Abstract

Optical microcavities play a significant role in the study of classical and quantum chaos. To date, most experimental explorations of their internal wave dynamics have focused on the properties of their inputs and outputs, without directly interrogating the dynamics and the associated mode patterns inside. As a result, this key information is rarely retrieved with certainty, which significantly restricts the verification and understanding of the actual chaotic motion. Here we demonstrate a simple and robust approach to directly and rapidly map the internal mode patterns in chaotic microcavities. By introducing a local index perturbation through a pump laser, we report a spectral response of optical microcavities that is proportional to the internal field distribution. With this technique, chaotic modes with staggered mode spacings can be distinguished. Consequently, a complete chaos assisted tunneling (CAT) and its time-reversed process are experimentally verified in the optical domain with unprecedented certainty.

Published
2021

6. Author Correction: Lead halide perovskite vortex microlasers

Author

Jiecai Han, Shumin Xiao, Yilin Liu, Qinghai Song, Wenzhao Sun, Yubin Fan, Yuhan Wang, Geyang Qu, and Wei Dai

Subjects
Multidisciplinary, Materials science, Lead (geology), Condensed matter physics, Science, General Physics and Astronomy, Halide, General Chemistry, General Biochemistry, Genetics and Molecular Biology, Vortex, Perovskite (structure)
Published
2021

7. The influence of drought strength on soil respiration in a woody savanna ecosystem, southwest China

Author

Liqing Sha, Aiguo Chen, Yiping Zhang, Yanqiang Jin, Peiguang Li, Jing Li, Wenjun Zhou, Yuntong Liu, Qinghai Song, John Grace, and Shubin Zhang

Subjects
010504 meteorology & atmospheric sciences, fungi, food and beverages, Soil Science, 04 agricultural and veterinary sciences, Plant Science, complex mixtures, 01 natural sciences, Soil respiration, Agronomy, parasitic diseases, Soil water, Dry season, Respiration, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Ecosystem, Precipitation, Respiration rate, Water content, 0105 earth and related environmental sciences
Abstract

Drought is expected to be more frequent and more intense with global warming. Our aim was to investigate how soil respiration would respond to different levels of precipitation exclusion (‘drought strength’). We conducted a two-year drought experiment in a woody savanna ecosystem in south west of China, which consisted of four treatments: a control treatment (CK); 30% precipitation exclusion (PE3), 50% precipitation exclusion (PE5) and 70% precipitation exclusion (PE7). The cumulative soil respiration rates were significantly decreased in both rainy and dry seasons as drought became more intense. The sensitivity of soil respiration to soil moisture decreased as drought severity increased. There were bursts of CO2 emission when dry soils were rewetted by rainfall after the dry season. Unlike most other exponential relationships between soil respiration and soil temperature, a parabolic function was observed in all treatments (P 28 °C) coinciding with insufficient soil water content (

Published
2018

8. The influence of grating shape formation fluctuation on DFB laser diode threshold condition

Author

Shiwei Bao, Chunmei Xie, and Qinghai Song

Subjects
Distributed feedback laser, Materials science, business.industry, Physics::Optics, 02 engineering and technology, Grating, 021001 nanoscience & nanotechnology, Atomic and Molecular Physics, and Optics, Wavelength, 020210 optoelectronics & photonics, Optics, Fiber Bragg grating, Duty cycle, 0202 electrical engineering, electronic engineering, information engineering, Physics::Atomic Physics, 0210 nano-technology, business, Refractive index, Lithography, Coupling coefficient of resonators
Abstract

Not only the grating material refractive index itself but also the Bragg grating physical shape formation affects the coupling strength greatly. The Bragg grating shape includes three factors, namely grating depth, duty ratio and grating angle. During the lithography and wet etching process, there always will be some fluctuation between the target and real grating shape formation after fabrication process. This grating shape fluctuation will affect the DFB coupling coefficient $$\kappa$$ , and then consequently threshold current and corresponding wavelength. This paper studied the grating shape formation fluctuation influence to improve the DFB fabrication yield. A truncated normal random distribution fluctuation is considered in this paper. The simulation results conclude that it is better to choose relative thicker grating depth with lower refractive index to obtain a better fabrication tolerance, while not quite necessary to spend too much effort on improving lithography and wet etching process to get a precisely grating duty ratio and grating angle.

Published
2018

10. Fabricating high refractive index titanium dioxide film using electron beam evaporation for all-dielectric metasurfaces

Author

Kaiyang Wang, Qinghai Song, Ning An, Shumin Xiao, and Haohan Wei

Subjects
Fabrication, Materials science, business.industry, High-refractive-index polymer, Annealing (metallurgy), Wide-bandgap semiconductor, 02 engineering and technology, Dielectric, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Electron beam physical vapor deposition, 0104 chemical sciences, chemistry.chemical_compound, Optics, chemistry, Titanium dioxide, Optoelectronics, General Materials Science, 0210 nano-technology, business, Refractive index
Abstract

Transparent high refractive index materials are of the central importance for the development of metasurface in visible range. Titanium dioxide (TiO2) has been considered as a perfect candidate due to its wide band gap and high refractive index. However, till now, it is still quite challenging to fabricate high-quality TiO2 films with high refractive indices and low losses. Here we demonstrate the fabrication of high-quality TiO2film using an electron-beam evaporation method. We show that the post-annealing conditions play key roles in the microstructure crystallography and the optical refractive index of the TiO2 films. A predominately oriented TiO2 film has been achieved by annealing at 700 °C in oxygen ambient. The refractive index is as high as 2.4, and the corresponding loss is negligible at 632 nm. Further studies on dielectric antennas show that our TiO2 film can be an ideal platform to fabricate metasurface in visible frequency range. We believe that our research will be important for the advances of all-dielectric metasurfaces.

Published
2016

11. Broadband and Tunable-Focus Flat Lens with Dielectric Metasurface

Author

Qinghai Song, Jianwen Zhong, Ning An, Ningbo Yi, Shumin Xiao, and Maoxia Zhu

Subjects
Materials science, Silicon, Biophysics, Phase (waves), Physics::Optics, chemistry.chemical_element, 02 engineering and technology, 01 natural sciences, Biochemistry, law.invention, 010309 optics, Optics, law, Liquid crystal, 0103 physical sciences, Focal length, business.industry, Flat lens, Surface plasmon, Metamaterial, 021001 nanoscience & nanotechnology, Lens (optics), chemistry, Optoelectronics, 0210 nano-technology, business, Biotechnology
Abstract

Metasurface-based flat lens have great potentials for applications in compact and portable cameras. However, the properties of optical metasurfaces are strongly limited by the intrinsic ohmic loss of metal and the fixed working distance. Here, we propose a highly efficient all-dielectric metasurface lens working in near-infrared frequency range. By exploiting silicon nanoblock as meta- atoms, the silicon metasurface produces phase changes covering 0 to 2π and near-unity reflection, inducing the focusing of light over a broad wavelength range. Interestingly, the focal length of such an ultrathin flat lens can be dynamically controlled by incorporating tunable materials such as liquid crystals. By utilizing the phase transition or electrical alignment of liquid crystals, the focal length has been tuned up to 10 %. We believe our research will be important to accelerate the applications of optical metasurfaces.

Published
2015

12. Effects of continuous drought stress on soil respiration in a tropical rainforest in southwest China

Author

Chuan-Sheng Wu, Liqing Sha, Yuntong Liu, Xiang Zhang, Qinghai Song, Zheng-Hong Tan, Liyuan Dong, and Yiping Zhang

Subjects
Wet season, Ecology, Soil Science, Plant Science, Soil carbon, complex mixtures, Soil respiration, Agronomy, Environmental science, Ecosystem, Precipitation, Soil fertility, Water content, Tropical rainforest
Abstract

Drought is predicted to have a profound impact on soil respiration. This study aimed to assess the effects of long-term precipitation decrease on soil respiration in a tropical rainforest. A precipitation reduction experiment was conducted in a tropical forest in southwest China at the beginning of 2011. Soil respiration and environmental parameters were measured monthly for three years. The continuous precipitation reduction treatment did not affect the seasonal patterns of soil respiration, but it significantly increased soil respiration in the study plot during the rainy season, and the relationship between soil respiration and soil moisture differed in the control and reduction treatment in the rainy season. Compared with the net ecosystem exchange of carbon in this system, the increment of annual soil carbon emissions in the reduction treatment was considerable and should not be ignored. Our results indicate that the responses of soil respiration to precipitation decrease may vary seasonally and the variation of volumetric water content in different seasons may be an important factor leading to the seasonal variation. The variation of soil moisture among different ecosystems as well as in different seasons should be taken into consideration when predicting the future response of soil respiration to drought globally.

Published
2015

13. End-fire injection of guided light into optical microcavity

Author

Shumin Xiao, Kaiyang Wang, Zhiyuan Gu, Quan Lyu, Shuai Liu, Qinghai Song, and Nan Zhang

Subjects
Physics, Coupling, Quantum optics, Physics and Astronomy (miscellaneous), business.industry, General Engineering, FOS: Physical sciences, Physics::Optics, General Physics and Astronomy, Optical microcavity, Waveguide (optics), law.invention, Vibration, law, Optoelectronics, Whispering-gallery wave, business, Sensitivity (electronics), Refractive index, Optics (physics.optics), Physics - Optics
Abstract

Coupling light into microdisk plays a key role in a number of applications such as resonant filters and optical sensors. While several approaches have successfully coupled light into microdisk efficiently, most of them suffer from the ultrahigh sensitivity to the environmental vibration. Here we demonstrate a robust mechanism, which is termed as end-fire injection. By connecting an input waveguide to a circular microdisk directly, the mechanism shows that light can be efficiently coupled into optical microcavity. The coupling efficiency can be as high as 0.75 when the input signals are on resonances. Our numerical results reveal that the high coupling efficiency is attributed to the constructive interference between the whispering gallery modes and the input signals. We have also shown that the end-fire injection can be further extended to the long-lived resonances with low refractive index such as n = 1.45. We believe our results will shed light on the applications of optical microcavities., 5 pages, 5figures

Published
2015

14. Room temperature three-photon pumped CH3NH3PbBr3 perovskite microlasers

Author

Kaiyang Wang, Qinghai Song, Shuai Wang, Can Huang, Yisheng Gao, Ningbo Yi, and Shumin Xiao

Subjects
Multidisciplinary, Materials science, Photon, Photoluminescence, business.industry, Halide, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Laser, 01 natural sciences, 0104 chemical sciences, law.invention, law, Optoelectronics, Light emission, Photonics, 0210 nano-technology, business, Absorption (electromagnetic radiation), Perovskite (structure)
Abstract

Hybrid lead halide perovskites have made great strides in next-generation light-harvesting and light emitting devices. Recently, they have also shown great potentials in nonlinear optical materials. Two-photon absorption and two-photon light emission have been thoroughly studied in past two years. However, the three-photon processes are rarely explored, especially for the laser emissions. Here we synthesized high quality CH3NH3PbBr3 perovskite microstructures with solution processed precipitation method and studied their optical properties. When the microstructures are pumped with intense 1240 nm lasers, we have observed clear optical limit effect and the band-to-band photoluminescence at 540 nm. By increasing the pumping density, whispering-gallery-mode based microlasers have been achieved from CH3NH3PbBr3 perovskite microplate and microrod for the first time. This work demonstrates the potentials of hybrid lead halide perovskites in nonlinear photonic devices.

Published
2017

15. Large-Scale and Defect-Free Silicon Metamaterials with Magnetic Response

Author

Siwu Sun, Shumin Xiao, Kaiyang Wang, Shang Sun, Qinghai Song, Ningbo Yi, Zhiyuan Gu, and Yisheng Gao

Subjects
Multidisciplinary, Materials science, Silicon, business.industry, Physics::Optics, chemistry.chemical_element, Metamaterial, 02 engineering and technology, Semiconductor device, 021001 nanoscience & nanotechnology, 01 natural sciences, Article, Photonic metamaterial, Split-ring resonator, chemistry, 0103 physical sciences, Metamaterial absorber, Optoelectronics, Photonics, 010306 general physics, 0210 nano-technology, business, Metamaterial antenna
Abstract

All-dielectric metamaterials offer a potential low-loss alternative to plasmonic metamaterials at optical frequencies. Here, we experimentally demonstrate a silicon based large-scale magnetic metamaterial, which is fabricated with standard photolithography and conventional reactive ion etching process. The periodically arrayed silicon sub-wavelength structures possess electric and magnetic responses with low loss in mid-infrared wavelength range. We investigate the electric and magnetic resonances dependencies on the structural parameters and demonstrate the possibility of obtaining strong dielectric-based magnetic resonance through a broad band range. The optical responses are quite uniform over a large area about 2 × 2 cm2. The scalability of this design and compatibility fabrication method with highly developed semiconductor devices process could lead to new avenues of manipulating light for low-loss, large-area and real integrated photonic applications.

Published
2016

16. Improvement of the chirality near avoided resonance crossing in optical microcavity

Author

Shumin Xiao, Kaiyang Wang, Ningbo Yi, Qinghai Song, Nan Zhang, and Zhiyuan Gu

Subjects
Physics, Exceptional point, Condensed matter physics, Scattering, High Energy Physics::Lattice, High Energy Physics::Phenomenology, General Physics and Astronomy, Resonance, Optical microcavity, law.invention, law, Mode coupling, Chirality (chemistry), Order of magnitude
Abstract

Chirality is one of the important phenomena at the vicinity of exceptional point (EP). The conventional understanding is that the chirality is determined by asymmetrical scattering efficiency (η), which reaches to zero only when the resonance approaches EP. Here we study the possibility to enhance the chirality in open systems with a more robust mechanism. By combining chirality with avoided resonance crossing, we show that the chirality and η can be dramatically modified. Taking a spiral shaped annular cavity as an example, we show that the chirality of optical resonances can be significantly improved when two sets of chiral states approach each other. The imbalance between counterclockwise (CCW) components and clockwise (CW) components has been enhanced by more than an order of magnitude. Our research provides a new route to tailor and control the chirality in open systems.

Published
2015

17. Photon hopping and nanowire based hybrid plasmonic waveguide and ring-resonator

Author

Kaiyang Wang, Shumin Xiao, Quan Lyu, Zhiyuan Gu, Qinghai Song, Shuai Liu, and Shang Sun

Subjects
Multidisciplinary, Materials science, Photon, business.industry, Nanowire, Physics::Optics, Article, Resonator, Quality (physics), Transmission (telecommunications), Q factor, Optoelectronics, business, Plasmon, Order of magnitude
Abstract

Nanowire based hybrid plasmonic structure plays an important role in achieving nanodevices, especially for the wide band-gap materials. However, the conventional schemes of nanowire based devices such as nano-resonators are usually isolated from the integrated nano-network and have extremely low quality (Q) factors. Here we demonstrate the transmission of waves across a gap in hybrid plasmonic waveguide, which is termed as “photon hopping”. Based on the photon hopping, we show that the emissions from nanodevices can be efficiently collected and conducted by additional nanowires. The collection ratio can be higher than 50% for a wide range of separation distance, transverse shift and tilt. Moreover, we have also explored the possibility of improving performances of individual devices by nano-manipulating the nanowire to a pseudo-ring. Our calculations show that both Q factor and Purcell factor have been increased by more than an order of magnitude. We believe that our researches will be essential to forming nanolasers and the following nano-networks.

Published
2015

18. A preliminary study on the heat storage fluxes of a tropical seasonal rain forest in Xishuangbanna

Author

Qinghai Song, Yiping Zhang, Shuangju Zhao, Junxia Dou, Xin Wang, and Guirui Yu

Subjects
Atmosphere, Wet season, Hydrology, Flux (metallurgy), Eddy covariance, Energy balance, General Earth and Planetary Sciences, Environmental science, Sensible heat, Thermal energy storage, Energy storage
Abstract

In order to discuss the values and daily variation characteristics of heat storage fluxes in a tropical seasonal rain forest in Xishuangbanna, the sensible and latent heat storage flux within air column, canopy heat storage flux, energy storage by photosynthesis and ground heat storage above the soil heat flux plate, as well as the ratios of these heat storage fluxes to the net radiation in the cool-dry, hot-dry and rainy season were compared and analyzed based on the observation data of carbon fluxes, meteorological factors and biomass within this tropical seasonal rain forest from January 2003 to December 2004. The findings showed that heat storage terms ranged significantly in the daytime and weakly in the nighttime, and the absolute values of sensible and latent heat storage fluxes were obviously greater than other heat storage terms in all seasons. In addition, the absolute values of total heat storage fluxes reached the peak in the hot-dry season, then were higher in the rainy season, and reached the minimum in the cool-dry season. The ratios of heat storage fluxes to net radiation generally decreased with time in the daytime, moreover, the sensible and latent heat storage dominated a considerable fraction of net radiation, while other heat storage contents occupied a smaller fraction of the net radiation and the peak value was not above 3.5%. In the daytime, the ratios of the total heat storage to net radiation were greater and differences in these ratios were distinct among seasons before 12:00, and then they became lower and differences were small among sea-sons after 12:00. The energy closure was improved when the storage terms were considered in the energy balance, which indicated that heat storage terms should not been neglected. The energy closure of tropical seasonal rain forest was not very well due to effects of many factors. The results would help us to further understand energy transfer and mass exchange between tropical forest and atmosphere. Moreover, they would supply a research basis for studying energy closure at other places.

Published
2006

19. Annual variation of carbon flux and impact factors in the tropical seasonal rain forest of xishuangbanna, SW China

Author

Shuangju Zhao, Qinghai Song, Xiaomin Sun, Liqing Sha, Yuesi Wang, Xiaodong Yang, Jianwei Tang, Guirui Yu, Zhen Yang, Zheng Zheng, and Yiping Zhang

Subjects
Soil respiration, Ecology, Dry season, Eddy covariance, General Earth and Planetary Sciences, Environmental science, Carbon sink, Ecosystem, Plant litter, Photosynthesis, Atmospheric sciences, Water content
Abstract

Two years of eddy covariance measurements of above- and below-canopy carbon fluxes and static opaque chamber and gas chromatography technique measurements of soil respiration for three treatments (bare soil, soil+litterfall, soil+litterfall+seedling) were carried out in a tropical seasonal rain forest. In addition, data of photosynthesis of dominant tree species and seedlings, leaf area index, litter production and decomposing speed, soil moisture, soil temperature and photosynthetic photon flux density within the forest were all measured concurrently. Data from January 2003 to December 2004 are used to present annual variability of carbon flux and relationships between carbon flux and impact factors. The results show that carbon flux of this forest presented unusual tendency of annual variation; above-canopy carbon fluxes were negative in the dry season (November-April) and mainly positive in the rainy season, but overall the forest is a carbon sink. Carbon flux has obviously diurnal variation in this tropical seasonal rain forest. Above-canopy carbon fluxes were negative in the daytime and absolute values were larger in the dry season than that in the rainy season, causing the forest to act as a carbon sink; at night, carbon fluxes were mainly positive, causing the forest to act as a carbon source. Dominant tree species have greater photosynthesis capability than that of seedlings, which have a great effect on above-canopy carbon flux. There was a significant correlation between above-canopy carbon flux and rate of photosynthesis of tree species. There was also a significant correlation between above-canopy carbon flux and rate of photosynthesis of seedlings; however, the below-canopy carbon flux was only significantly correlated with rate of photosynthesis of seedlings during the hot-dry season. Soil respiration of the three treatments displayed a markedly seasonal dynamic; in addition, above-canopy carbon fluxes correlated well with soil respiration, litterfall production, litterfall decomposition rate, precipitation, and soil moisture and temperature. A primary statistical result of this study showed that above-canopy carbon flux in this forest presented carbon source or sink effects in different seasons, and it is a carbon sink at the scale of a year.

Published
2006

20. The combination of high Q factor and chirality in twin cavities and microcavity chain

Author

Shumin Xiao, Shuai Liu, Nan Zhang, Kaiyang Wang, Zhiyuan Gu, Huilin Zhai, Meng Li, Zhi Wei Chen, Qinghai Song, and Shang Sun

Subjects
Coupling, Physics, Multidisciplinary, Fabrication, Quality (physics), Chain (algebraic topology), Plane (geometry), Q factor, Physics::Optics, Chirality (chemistry), Molecular physics, Refractive index, Article
Abstract

Chirality in microcavities has recently shown its bright future in optical sensing and microsized coherent light sources. The key parameters for such applications are the high quality (Q) factor and large chirality. However, the previous reported chiral resonances are either low Q modes or require very special cavity designs. Here we demonstrate a novel, robust and general mechanism to obtain the chirality in circular cavity. By placing a circular cavity and a spiral cavity in proximity, we show that ultra-high Q factor, large chirality and unidirectional output can be obtained simultaneously. The highest Q factors of the non-orthogonal mode pairs are almost the same as the ones in circular cavity. And the co-propagating directions of the non-orthogonal mode pairs can be reversed by tuning the mode coupling. This new mechanism for the combination of high Q factor and large chirality is found to be very robust to cavity size, refractive index and the shape deformation, showing very nice fabrication tolerance. And it can be further extended to microcavity chain and microcavity plane. We believe that our research will shed light on the practical applications of chirality and microcavities.

Published
2014

21. Coherent destruction of tunneling in chaotic microcavities via three-state anti-crossings

Author

Shumin Xiao, Zhiyuan Gu, Shuai Liu, and Qinghai Song

Subjects
Multidisciplinary, Condensed matter physics, Computer science, Quantum dynamics, Chaotic, State (functional analysis), Bioinformatics, Article, Quantum tunnelling
Abstract

Coherent destruction of tunneling (CDT) has been one seminal result of quantum dynamics control. Traditionally, CDT is understood as destructive interference between two intermediate transition paths near the level crossing. CDT near the level anti-crossings, especially the “locking”, has not been thoroughly explored so far. Taking chaotic microcavity as an example, here we study the inhibition of the tunneling via the strong couplings of three resonances. While the tunneling rate is only slightly affected by each strong coupling between two modes, the destructive interference between two strong couplings can dramatically improve the inhibition of the tunneling. A “locking” point, where dynamical tunneling is completely suppressed, has even been observed. We believe our finding will shed light on researches on micro- & nano-photonics.

Published
2014

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