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179 results on '"Zhou, S. Q."'

1. A multi-band study of pulsar glitches with Fermi-LAT and Parkes

Author

Liu, P., Yuan, J. -P., Ge, M. -Y., Ye, W. -T., Zhou, S. -Q., Dang, S. -J., Zhou, Z. -R., Gügercinoğlu, E., Tu, Z. H., Wang, P., Li, A., Li, D., and Wang, N.

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Nuclear Theory
Abstract

Pulsar glitch is a phenomenon characterized by abrupt changes in the spin period over less than a minute. We present a comprehensive analysis of glitches in four gamma-ray pulsars by combining the timing observation data of \textit{Fermi} Large Area Telescope (\textit{Fermi}-LAT) and Parkes 64 m radio telescope. The timing data of five pulsars, namely PSRs J1028$-$5819, J1420$-$6048, J1509$-$5850, J1709$-$4429 (B1706$-$44) and J1718$-$3825, spanning over 14 years of observations for each, are examined. A total of 12 glitches are identified in four pulsars, including a previously unreported glitch. That is, a new small glitch is identified for PSR J1718$-$3825 in MJD $\sim$ 59121(8), and the fractional glitch size was $\Delta \nu/\nu \sim 1.9(2) \times 10^{-9}$. For PSR J1420$-$6048, our investigation confirms the existence of two linear recovery terms during the evolution of $\dot{\nu}$ subsequent to glitches 4, 6 and 8, and identified an exponential recovery process in glitch 8, with $Q = 0.0131(5)$, $\tau_{\rm d} = 100(6)$ d. Regarding the fourth glitch of PSR J1709$-$4429, our analysis reveals the presence of two exponential recovery terms with healing parameters and decay time-scales $Q$1=0.0104(5), $\tau_{\rm d1}=72(4)$ d and $Q$2 = 0.006(1), $\tau_{\rm d2}=4.2(6)$ d, respectively. For the remaining previously reported glitches, we refine the glitch epochs and glitch observables through precise fitting of the timing residual data. We extensively discuss how multi-band data of glitches can help better characterize the glitch recoveries and constrain the underlying physics of glitch events. We demonstrate that the accumulation of observational data reveals the rich complexity of the glitch phenomenon, aiding in the search for a well-established interpretation., Comment: 16 pages, 8 figures, 7 tables

Published
2024

2. A Series of (Net) Spin-down Glitches in PSR J1522-5735: Insights from the Vortex Creep and Vortex Bending Models

Author

Zhou, S. Q., Ye, W. T., Ge, M. Y., GügercinoğLu, E., Zheng, S. J., Yu, C., Yuan, J. P., and Zhang, J.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Through a detailed timing analysis of $\textit{Fermi}$-LAT data, the rotational behavior of the $\gamma$-ray pulsar PSR J1522$-$5735 was tracked from August 2008 (MJD 54692) to January 2024 (MJD 60320). During this 15.4-year period, two over-recovery glitches and four anti-glitches were identified, marking a rare occurrence in rotation-powered pulsars (RPPs). The magnitudes of these (net) spin-down glitches were determined to be $|\Delta\nu_{\rm g}/\nu| \sim 10^{-8}$, well above the estimated detectability limit. For the two over-recovery glitches, the respective recovery fractions $Q$ are $2.1(7)$ and $1.4(2)$. Further analysis showed no substantial variations in either the flux or pulse profile shape in any of these events, suggesting that small (net) spin-down glitches, unlike large events observed in magnetars and magnetar-like RPPs, may occur without leaving an impact on the magnetosphere. Within the framework of the vortex creep and vortex bending models, anti-glitches and over-recoveries indicate the recoupling of vortex lines that moved inward as a result of a crustquake; meanwhile, the apparent fluctuations in the spin-down rate after the glitches occur as a result of the coupling of the oscillations of bent vortex lines to the magnetosphere., Comment: 8 pages, 3 figures, 2 tables, submitted to ApJL. Comments Welcome!

Published
2024

3. Pulse profile variability associated with the glitch of PSR J1048$-$5832

Author

Liu, P., Yuan, J. -P., Ge, M. -Y., Ye, W. -T., Zhou, S. -Q., Dang, S. -J., Zhou, Z. -R., Gügercinoğlu, E., Wang, W. -H., Wang, P., Li, A., Li, D., and Wang, N.

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Nuclear Theory
Abstract

PSR J1048$-$5832 (B1046$-$58) is a Vela-like pulsar that has exhibited multiple glitch events. In this study, we analyze the timing data spanning nearly 16 years, acquired from both the Fermi Gamma-ray Space Telescope and the Parkes 64 m radio telescope. As a result, a total of five glitches are detected within this dataset. Among them, a previously unknown small glitch is newly found at MJD 56985(9) (November 24, 2014), making it the smallest glitch recorded from this source so far. The increments of the spin frequency and its first derivative are $\Delta \nu \approx 2.2(3) \times 10^ {-8} $ Hz, and $\Delta \dot{\nu} \approx 3(2) \times 10^ {-15}$ s$^{-2}$, respectively. Significant changes in the integrated normalized mean pulse profile are detected following three of the five glitch events, notably in the radio band. Although no evidence of a correlation is found between the spin-down rate and profile evolution, the jump phenomenon of $W_{55}$ (pulse width at the 55% peak amplitude) after the glitch in the narrow mode suggests that the glitch may influence the profile change. We discuss the influence of glitches on the pulsar's emission properties in terms of platelet motion by a crustquake and also put constraints on the equation of state from the moment of inertia and response timescales of involved superfluid layers inside the neutron star., Comment: 14 pages, 7 figures, 6 tables, MNRAS (2024) accepted

Published
2023
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4. New pulse profile variability associated with a glitch of PSR J0738-4042

Author

Zhou, S. Q., Gügercinoğlu, E., Yuan, J. P., Ge, M. Y., Yu, C., Zhang, C. M., Zhang, J., Feng, Z. W., and Ye, C. Q.

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics
Abstract

The close correlation observed between emission state and spin-down rate change of pulsars has many implications both for the magnetospheric physics and the neutron star interior. The middle-aged pulsar PSR J0738$-$4042, which had been observed to display variations in the pulse profile associated with its spin-down rate change due to external effects, is a remarkable example. In this study, based on the 12.5-yr combined public timing data from UTMOST and Parkes, we have detected a new emission-rotation correlation in PSR J0738$-$4042 concurrent with a glitch. A glitch that occurred at MJD 57359(5) (December 3, 2015) with $\Delta\nu/\nu \sim 0.36(4)\times 10^{-9}$ is the first glitch event observed in this pulsar and is probably the underlying cause of the emission-rotation correlation. Unlike the usual post-glitch behaviours, the braking torque on the pulsar has continued to increase over 1380 d, corresponding to a significant decrease in $\ddot{\nu}$. As for changes in the pulse profile after the glitch, the relative amplitude of the leading component weakens drastically, while the middle component becomes stronger. A combined model of crustquake induced platelet movement and vortex creep response is invoked to account for this rare correlation. In this scenario, magnetospheric state-change is naturally linked to the pulsar-intrinsic processes that give rise to a glitch., Comment: 13 pages, 6 figures. Accepted for publication in MNRAS. Comments Welcome

Published
2022
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5. Single-crystal epitaxial europium iron garnet films with strain-induced perpendicular magnetic anisotropy: structural, strain, magnetic, and spin transport properties

Author

Guo, M. X., Cheng, C. K., Liu, Y. C., Wu, C. N., Chen, W. N., Chen, T. Y, Wu, C. T., Hsu, C. H., Zhou, S. Q., Chang, C. F., Tjeng, L. H., Lee, S. F., Pai, C. F., Hong, M., and Kwo, J.

Subjects
Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

Single-crystal europium iron garnet (EuIG) thin films epitaxially strain-grown on gadolinium gallium garnet (GGG)(100) substrates using off-axis sputtering have strain-induced perpendicular magnetic anisotropy (PMA). By varying the sputtering conditions, we have tuned the europium/iron (Eu/Fe) composition ratios in the films to tailor the film strains. The films exhibited an extremely smooth, particle-free surface with roughness as low as 0.1 nm as observed using atomic force microscopy. High-resolution x-ray diffraction analysis and reciprocal space maps showed in-plane epitaxial film growth, very smooth film/substrate interface, excellent film crystallinity with a small full width at half maximum of 0.012$^{\circ}$ in the rocking curve scans, and an in-plane compressive strain without relaxation. In addition, spherical aberration-corrected scanning transmission electron microscopy showed an atomically abrupt interface between the EuIG film and GGG. The measured squarish out-of-plane magnetization-field hysteresis loops by vibrating sample magnetometry in conjunction with the measurements from angle-dependent x-ray magnetic dichroism demonstrated the PMA in the films. We have tailored the magnetic properties of the EuIG thin films, including saturation magnetization ranging from 71.91 to 124.51 emu/c.c. (increase with the (Eu/Fe) ratios), coercive field from 27 to 157.64 Oe, and the strength of PMA field ($H_\bot$) increasing from 4.21 to 18.87 kOe with the in-plane compressive strain from -0.774 to -1.044%. We have also investigated spin transport in Pt/EuIG bi-layer structure and evaluated the real part of spin mixing conductance to be $3.48\times10^{14} {\Omega}^{-1}m^{-2}$. We demonstrated the current-induced magnetization switching with a low critical switching current density of $3.5\times10^6 A/cm^2$, showing excellent potential for low-dissipation spintronic devices., Comment: 29 pages, 9 figures, 1 table

Published
2022

6. Glitches in four gamma-ray pulsars and inferences on the neutron star structure

Author

Gügercinoğlu, E., Ge, M. Y., Yuan, J. P., and Zhou, S. Q.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

We present timing solutions from the Fermi-LAT observations of gamma-ray pulsars PSR J0835$-$4510 (Vela), PSR J1023$-$5746, PSR J2111$+$4606, and PSR J2229$+$6114. Data ranges for each pulsar extend over a decade. From data analysis we have identified a total of 20 glitches, 11 of which are new discoveries. Among them, 15 glitches are large ones with $\Delta\nu/\nu\gtrsim10^{-6}$. PSR J1023$-$5746 is the most active pulsar with glitch activity parameter being $A_{\rm g}=14.5\times10^{-7}$\yr~in the considered data span and should be a target for frequently glitching Vela-like pulsars in future observations. We have done fits within the framework of the vortex creep model for 16 glitches with $\Delta\nu/\nu\gtrsim10^{-7}$. By theoretical analysis of these glitches we are able to obtain important information on the structure of neutron star, including moments of inertia of the superfluid regions participated in glitches and coupling time-scales between various stellar components. The theoretical prediction for the time to the next glitch from the parameters of the previous one is found to be in qualitative agreement with the observed inter-glitch time-scales for the considered sample. Recoupling time-scales of the crustal superfluid are within the range of theoretical expectations and scale inversely with the spin-down rate of a pulsar. We also determined a braking index n=2.63(30) for PSR J2229$+$6114 after glitch induced contributions have been removed., Comment: Accepted for publication in MNRAS

Published
2020
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7. Discovery of state transition behaviors in PSR J1124--5916

Author

Ge, M. Y., Yuan, J. P., Lu, F. J., Tong, H., Zhou, S. Q., Yan, L. L., Wang, L. J., Tuo, Y. L., Li, X. F., and Song, L. M.

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics
Abstract

With the twelve-year long observations by {\sl Fermi}-LAT, we discover two pairs of spin-down state transitions of PSR J1124--5916, making it the second young pulsar detected to have such behaviors. PSR J1124--5916 shows mainly two states according to its spin-down rate evolution, the normal spin-down state and the low spin-down state. In about 80\% of the observation time, the pulsar is in the normal spin-down state, in which the spin-down rate decreases linearly and gives a braking index of $1.98\pm0.04$. The two transitions to the low spin-down state are in MJD 55183--55803 and MJD 56114--56398 respectively, with fractional amplitudes both $\sim0.4\%$. No significant difference between the $\gamma$-ray profiles of the two spin-down states is detected, which is similar to PSR B0540-69, the other young pulsar with state transition detected., Comment: 13 pages, 2 figures

Published
2020
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8. An in-depth investigation of 11 pulsars discovered by FAST

Author

Cameron, A. D., Li, D., Hobbs, G., Zhang, L., Miao, C. C., Wang, J. B., Yuan, M., Wang, S., Corban, G. Jacobs, Cruces, M., Dai, S., Feng, Y., Han, J., Kaczmarek, J. F., Nui, J. R., Pan, Z. C., Qian, L., Tao, Z. Z., Wang, P., Wang, S. Q., Xu, H., Xu, R. X., Yue, Y. L., Zhang, S. B., Zhi, Q. J., Zhu, W. W., Champion, D. J., Kramer, M. K., Zhou, S. Q., Qiu, K. P., and Zhu, M.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

We present timing solutions and analyses of 11 pulsars discovered by the Five-hundred-meter Aperture Spherical radio Telescope (FAST). These pulsars were discovered using an ultra-wide bandwidth receiver in drift-scan observations made during the commissioning phase of FAST, and were then confirmed and timed using the 64-m Parkes Radio Telescope. Each pulsar has been observed over a span of at least one year. Highlighted discoveries include PSR J0344-0901, which displays mode-changing behaviour and may belong to the class of so-called `swooshing' pulsars (alongside PSRs B0919+06 and B1859+07); PSR J0803-0942, whose emission is almost completely linearly polarised; and PSRs J1900-0134 and J1945+1211, whose well defined polarisation angle curves place stringent constraints on their emission geometry. We further discuss the detectability of these pulsars by earlier surveys, and highlight lessons learned from our work in carrying out confirmation and monitoring observations of pulsars discovered by a highly sensitive telescope, many of which may be applicable to next-generation pulsar surveys. This paper marks one of the first major releases of FAST-discovered pulsars, and paves the way for future discoveries anticipated from the Commensal Radio Astronomy FAST Survey (CRAFTS)., Comment: 18 pages, 8 figures, 5 tables. Accepted for publication by MNRAS. Correcting error in the caption of Figure 8

Published
2020
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9. 31 Glitches in Twelve Radio Pulsars

Author

Zhou, S. Q., Yuan, J. P., Zhang, J., Liu, M. Q., Dang, Z. W. Feng. S. J., and Zhu, X. D.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Data are gathered from the Parkes pulsar data archive of twelve young radio pulsars, with the intervals of data for each pulsar ranged between 2.8 years and 6.8 years. 31 glitches are identified by using phase connection from "pulsar timing" technology, ranging from $1.7\times10^{-9}$ to $8.5\times10^{-6}$ at the change in relative glitch sizes $\Delta\nu/\nu$, where $\nu=1/P$ is the pulse frequency. 8 post-glitch behaviours of 13 published glitches are updated with 4 exponential recoveries observed. Detecting 18 new glitches has great significance, but only one exponential relaxation was discovered in these new glitches. The bimodal distribution of $\Delta\nu/\nu$, as before, is validated with peaks at $\sim 10^{-6}$ and $\sim 10^{-9}$. Moreover, all exponential decays were observed in large glitches, and have very low $Q$. It takes short time toward the extrapolation of the pre-glitch pulse frequency with the timescale of 40 or 80 days. Besides, most glitches exhibit a linear decrease in slow-down rate $|\dot{\nu}|$ and a permanent change in $\ddot{\nu}$ after glitch. In special, PSR J1341-6220 was detected 4 new glitches to compose a total of 27 glitches, rising in third place of the most actively glitching pulsars known with a glitch rate of $1.17$ glitches per year. Unusual post-glitch behaviours demonstrate long-lasting increase of $\nu$ for hundreds of days in PSR J1112--6103 and PSR J1614--5048., Comment: One of the authors thinks that there are some problems in this manuscript. Therefore, he requests to withdraw this article

Published
2018

10. Pulse profile variability associated with the glitch of PSR J1048-5832.

Author

Liu, P, Yuan, J -P, Ge, M -Y, Ye, W -T, Zhou, S -Q, Dang, S -J, Zhou, Z -R, Gügercinoğlu, E, Wang, W -H, Wang, P, Li, A, Li, D, and Wang, N

Subjects
FERMI Gamma-ray Space Telescope (Spacecraft), NEUTRON stars, RADIO telescopes, EQUATIONS of state, MOMENTS of inertia
Abstract

PSR J1048 |$-$| 5832 (B1046 |$-$| 58) is a Vela-like pulsar that has exhibited multiple glitch events. In this study, we analyse the timing data spanning nearly 16 yr, acquired from both the Fermi Gamma-ray Space Telescope and the Parkes 64 m radio telescope. As a result, a total of five glitches are detected within this data set. Among them, a previously unknown small glitch is newly found at MJD 56985(9) (November 24, 2014), making it the smallest glitch recorded from this source so far. The increments of the spin frequency and its first derivative are |$\Delta \nu \approx 2.2(3) \times 10^ {-8}$|  Hz, and |$\Delta \dot{\nu } \approx 3(2) \times 10^ {-15}$|  s |$^{-2}$|⁠ , respectively. Significant changes in the integrated normalized mean pulse profile are detected following three of the five glitch events, notably in the radio band. Although no evidence of a correlation is found between the spin-down rate and profile evolution, the jump phenomenon of |$W_{55}$| (pulse width at the 55% peak amplitude) after the glitch in the narrow mode suggests that the glitch may influence the profile change. We discuss the influence of glitches on the pulsar's emission properties in terms of platelet motion by a crustquake and also put constraints on the equation of state from the moment of inertia and response time-scales of involved superfluid layers inside the neutron star. [ABSTRACT FROM AUTHOR]

Published
2024
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11. REGREEN NBS Handbook from concept to action for ecosystem restoration & urban resilience. REGREEN Deliverable D7.4. REGREEN - Fostering nature‐based solutions for smart, green and healthy urban transitions in Europe and China. Horizon2020 Grant No. 821016

Author

Petsani, E., Anderson, S., Banzhaf, Ellen, Barra, M., Beber, J., Pedersen, A.B., Cai, X.-X., Ellmer, H.-P., Fletcher, D., Grandin, G., Guo, Z., Hardiman, R., Iversen, S., Jensen, A., Jones, L., Knopp, Julius, Læssøe, J., Levin, G., Ma, Y., Sang, Å.O., Petersen, C., Prevot, A.-C., Russel, D., Tedeschini, F., Tuerk, A., Vogel, N., Wheeler, B., Wu, R., Wu, W., Xing, Q., Xu, D.-F., Xu, Y., Yang, Y., Yuan, Q., Zhao, B., Zhao, J., Zhou, S.-Q., Zandersen, M., Petsani, E., Anderson, S., Banzhaf, Ellen, Barra, M., Beber, J., Pedersen, A.B., Cai, X.-X., Ellmer, H.-P., Fletcher, D., Grandin, G., Guo, Z., Hardiman, R., Iversen, S., Jensen, A., Jones, L., Knopp, Julius, Læssøe, J., Levin, G., Ma, Y., Sang, Å.O., Petersen, C., Prevot, A.-C., Russel, D., Tedeschini, F., Tuerk, A., Vogel, N., Wheeler, B., Wu, R., Wu, W., Xing, Q., Xu, D.-F., Xu, Y., Yang, Y., Yuan, Q., Zhao, B., Zhao, J., Zhou, S.-Q., and Zandersen, M.

Abstract

The REGREEN NbS Transition Handbook provides a comprehensive overview of the REGREEN project's key findings and outcomes, focusing on Nature-based Solutions (NbS) for urban sustainability in Europe and China. The handbook is structured into nine chapters, each addressing crucial aspects of NbS design, implementation and governance. Below is an overview of the chapters as outlined in the handbook: Introduction and Urban Living Labs (ULLs): Highlights the strategic positioning of Urban Living Labs (ULLs), serving as innovative testbeds in the Local and Regional Governments (LGR) for co-creating knowledge and fostering urban innovation. The REGREEN project showcased its crucial role as a catalyst for strategic developments, capacity building, and the design and implementation of NbS by local and regional public organisations. Nature-based learning and NbS: Emphasises the pivotal role of education in addressing urbanisation and climate change challenges. Developed by an interdisciplinary team, REGREEN's educational approaches are participatory and action-oriented, instilling an appreciation for nature and awareness of NbS among the younger generation. Urbanisation and Ecosystem Services (ES): Explores the relationship between urbanisation and ES in Europe and China, with a focus on NbS as an approach. The chapter advocates for effective policies and the leveraging of NbS, particularly green and grey built infrastructure, to enhance urban resilience. Urban Ecosystem Service Mapping and Modelling: Provides a comprehensive overview of existing datasets on urban ES, advocating for standardised, comparable data. The chapter offers actionable insights for policymakers and urban practitioners, stressing the integration of ES into urban planning and collaborative, interdisciplinary decision-making approaches. Wellbeing Values of NbS: Delves into the comprehensive exploration of the health and well-being values associated with NbS, emphasising the complex nature of assigning val

Published
2024

12. Annealing induced colossal magnetocapacitance and colossal magnetoresistance in In-doped CdCr2S4

Author

Xie, Y. M., Yang, Z. R., Li, L., Yin, L. H., Hu, X. B., Huang, Y. L., Jian, H. B., Song, W. H., Sun, Y. P., Zhou, S. Q., and Zhang, Y. H.

Subjects
Condensed Matter - Materials Science
Abstract

The correlation between colossal magnetocapacitance (CMC) and colossal magnetoresistance (CMR) in CdCr2S4 system has been revealed. The CMC is induced in polycrystalline Cd0.97In0.03Cr2S4 by annealing in cadmium vapor. At the same time, an insulator-metal transition and a concomitant CMR are observed near the Curie temperature. In contrast, after the same annealing treatment, CdCr2S4 displays a typical semiconductor behavior and does not show magnetic field dependent dielectric and electric transport properties. The simultaneous occurrence or absence of CMC and CMR effects implies that the CMC in the annealed Cd0.97In0.03Cr2S4 could be explained qualitatively by a combination of CMR and Maxwell-Wagner effect., Comment: 14 pages, 3 figures

Published
2012
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13. Validity of the scattering length approximation in strongly interacting Fermi systems

Author

Zhou, S. Q., Ceperley, D. M., and Zhang, Shiwei

Subjects
Condensed Matter - Quantum Gases
Abstract

We investigate the energy spectrum of systems of two, three and four spin-1/2 fermions with short range attractive interactions both exactly, and within the scattering length approximation. The formation of molecular bound states and the ferromagnetic transition of the excited scattering state are examined systematically as a function of the 2-body scattering length. Identification of the upper branch (scattering states) is discussed and a general approach valid for systems with many particles is given. We show that an adiabatic ferromagnetic transition occurs, but at a critical transition point kF a much higher than predicted from previous calculations, almost all of which use the scattering length approximation. In the 4-particle system the discrepancy is a factor of 2. The exact critical interaction strength calculated in the 4-particle system is consistent with that reported by experiment. To make comparisons with the adiabatic transition, we study the quench dynamics of the pairing instability using the eigenstate wavefunctions., Comment: 7 pages, 7 figures

Published
2011
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14. Construction of localized wave functions for a disordered optical lattice and analysis of the resulting Hubbard model parameters

Author

Zhou, S. Q. and Ceperley, D. M.

Subjects
Condensed Matter - Disordered Systems and Neural Networks
Abstract

We propose a method to construct localized single particle wave functions using imaginary time projection and thereby determine lattice Hamiltonian parameters. We apply the method to a specific disordered potential generated by an optical lattice experiment and calculate for each instance of disorder, the equivalent lattice model parameters. The probability distributions of the Hubbard parameters are then determined. Tests of localization and eigen-energy convergence are examined., Comment: 10 pages, 16 figures

Published
2009
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16. Glitches in four gamma-ray pulsars and inferences on the neutron star structure

Author

Gügercinoğlu, E., Ge, M. Y., Yuan, J. P., and Zhou, S. Q.

Subjects
High Energy Astrophysical Phenomena (astro-ph.HE), Space and Planetary Science, Astrophysics::High Energy Astrophysical Phenomena, Astrophysics::Instrumentation and Methods for Astrophysics, Astrophysics::Solar and Stellar Astrophysics, FOS: Physical sciences, Astronomy and Astrophysics, Astrophysics - High Energy Astrophysical Phenomena
Abstract

We present timing solutions from the Fermi-LAT observations of gamma-ray pulsars PSR J0835$-$4510 (Vela), PSR J1023$-$5746, PSR J2111$+$4606, and PSR J2229$+$6114. Data ranges for each pulsar extend over a decade. From data analysis we have identified a total of 20 glitches, 11 of which are new discoveries. Among them, 15 glitches are large ones with $\Delta\nu/\nu\gtrsim10^{-6}$. PSR J1023$-$5746 is the most active pulsar with glitch activity parameter being $A_{\rm g}=14.5\times10^{-7}$\yr~in the considered data span and should be a target for frequently glitching Vela-like pulsars in future observations. We have done fits within the framework of the vortex creep model for 16 glitches with $\Delta\nu/\nu\gtrsim10^{-7}$. By theoretical analysis of these glitches we are able to obtain important information on the structure of neutron star, including moments of inertia of the superfluid regions participated in glitches and coupling time-scales between various stellar components. The theoretical prediction for the time to the next glitch from the parameters of the previous one is found to be in qualitative agreement with the observed inter-glitch time-scales for the considered sample. Recoupling time-scales of the crustal superfluid are within the range of theoretical expectations and scale inversely with the spin-down rate of a pulsar. We also determined a braking index n=2.63(30) for PSR J2229$+$6114 after glitch induced contributions have been removed., Comment: Accepted for publication in MNRAS

Published
2022

18. Coastal wetland vegetation classification using pixel-based, object-based and deep learning methods based on RGB-UAV

Author

Zheng, J.-Y., Hao, Y.-Y., Wang, Y.-C., Zhou, S.-Q., Wu, Wanben, Yuan, Q., Gao, Y., Guo, H.-Q., Cai, X.-X., Zhao, B., Zheng, J.-Y., Hao, Y.-Y., Wang, Y.-C., Zhou, S.-Q., Wu, Wanben, Yuan, Q., Gao, Y., Guo, H.-Q., Cai, X.-X., and Zhao, B.

Abstract

The advancement of deep learning (DL) technology and Unmanned Aerial Vehicles (UAV) remote sensing has made it feasible to monitor coastal wetlands efficiently and precisely. However, studies have rarely compared the performance of DL with traditional machine learning (Pixel-Based (PB) and Object-Based Image Analysis (OBIA) methods) in UAV-based coastal wetland monitoring. We constructed a dataset based on RGB-based UAV data and compared the performance of PB, OBIA, and DL methods in the classification of vegetation communities in coastal wetlands. In addition, to our knowledge, the OBIA method was used for the UAV data for the first time in this paper based on Google Earth Engine (GEE), and the ability of GEE to process UAV data was confirmed. The results showed that in comparison with the PB and OBIA methods, the DL method achieved the most promising classification results, which was capable of reflecting the realistic distribution of the vegetation. Furthermore, the paradigm shifts from PB and OBIA to the DL method in terms of feature engineering, training methods, and reference data explained the considerable results achieved by the DL method. The results suggested that a combination of UAV, DL, and cloud computing platforms can facilitate long-term, accurate monitoring of coastal wetland vegetation at the local scale.

Published
2022

19. Single-crystal epitaxial europium iron garnet films with strain-induced perpendicular magnetic anisotropy: Structural, strain, magnetic, and spin transport properties

Author

Guo, M. X., primary, Cheng, C. K., additional, Liu, Y. C., additional, Wu, C. N., additional, Chen, W. N., additional, Chen, T. Y, additional, Wu, C. T., additional, Hsu, C. H., additional, Zhou, S. Q., additional, Chang, C. F., additional, Tjeng, L. H., additional, Lee, S. F., additional, Pai, C. F., additional, Hong, M., additional, and Kwo, J., additional

Published
2022
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22. New pulse profile variability associated with a glitch of PSR J0738-4042.

Author

Zhou, S Q, Gügercinoğlu, E, Yuan, J P, Ge, M Y, Yu, C, Zhang, C M, Zhang, J, Feng, Z W, and Ye, C Q

Subjects
*NEUTRON stars, *MAGNETOSPHERIC physics, *PULSARS
Abstract

The close correlation observed between emission state and spin-down rate change of pulsars has many implications both for the magnetospheric physics and the neutron star interior. The middle-aged pulsar PSR J0738-4042, which had been observed to display variations in the pulse profile associated with its spin-down rate change due to external effects, is a remarkable example. In this study, based on the 12.5 yr combined public timing data from UTMOST and Parkes, we have detected a new emission-rotation correlation in PSR J0738-4042 concurrent with a glitch. A glitch that occurred at MJD 57359 (5) (2015 December 3) with Δν/ν ∼ 0.36(4) × 10−9 is the first glitch event observed in this pulsar, and is probably the underlying cause of the emission-rotation correlation. Unlike the usual post-glitch behaviours, the braking torque on the pulsar has continued to increase over 1380 d, corresponding to a significant decrease in |$\ddot{\nu }$|⁠. As for changes in the pulse profile after the glitch, the relative amplitude of the leading component weakens drastically, while the middle component becomes stronger. A combined model of crustquake induced platelet movement and vortex creep response is invoked to account for this rare correlation. In this scenario, magnetospheric state-change is naturally linked to the pulsar-intrinsic processes that give rise to a glitch. [ABSTRACT FROM AUTHOR]

Published
2023
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23. Subsecond Thermal Processing Using Flash Lamps for the Nanoscale and Beyond

Author

Skorupa, W., Prucnal, S., Cherkouk, C., Zhou, S. Q., Rebohle, L., Skorupa, W., Prucnal, S., Cherkouk, C., Zhou, S. Q., and Rebohle, L.

Abstract

Undoubtedly, thermal activation processes in advanced materials technologies underwent a dramatic development during the last 40 years. Especially, the use of lasers and lamps allowed the move from long time (10 min to several hours) to short time (several fs-1 min) annealing approaches. From the application viewpoint, the main driver was semiconductor-based chip technology. After 1980, annealing with halogen lamp arrangements allowed annealing times in the range of 10 min and below arriving in advanced chip technology the limit of about 1 sec around the year 2000. To reach annealing times down to the ns range lasers and xenon-filled flash lamps came on stream. In this talk a short introduction to flash lamp annealing technology will be presented together with a few promising research approaches: dissolution of point defect clusters, doping of 2D materials, lithium battery electrode engineering.

Published
2021

29. An in-depth investigation of 11 pulsars discovered by FAST

Author

Cameron, A D, primary, Li, D, primary, Hobbs, G, primary, Zhang, L, primary, Miao, C C, primary, Wang, J B, primary, Yuan, M, primary, Wang, S, primary, Jacobs Corban, G, primary, Cruces, M, primary, Dai, S, primary, Feng, Y, primary, Han, J, primary, Kaczmarek, J F, primary, Niu, J R, primary, Pan, Z C, primary, Qian, L, primary, Tao, Z Z, primary, Wang, P, primary, Wang, S Q, primary, Xu, H, primary, Xu, R X, primary, Yue, Y L, primary, Zhang, S B, primary, Zhi, Q J, primary, Zhu, W W, primary, Champion, D J, primary, Kramer, M, primary, Zhou, S Q, primary, Qiu, K P, primary, and Zhu, M, primary

Published
2020
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33. Switching the uniaxial magnetic anisotropy by ion irradiation induced compensation

Author

Yuan, Y., Amarouche, T., Xu, C., Rushforth, A., Boettger, R., Edmonds, K., Campion, R., Gallagher, B., Helm, M., Bardeleben, H., and Zhou, S. Q.

Abstract

In the present work, the uniaxial magnetic anisotropy of GaMnAsP is modified by helium ion irradiation. According to the micro-magnetic parameters, e.g. resonance fields and anisotropy constants deduced from ferromagnetic resonance measurements, a rotation of the magnetic easy axis from out-of-plane [001] to in-plane [100] direction is achieved. From the application point of view, our work presents a novel avenue in modifying the uniaxial magnetic anisotropy in GaMnAsP with the possibility of lateral patterning by using lithography or focused ion beam.

Published
2018

34. Plasmonic nanoparticles embedded in single crystals synthesized by gold ion implantation for enhanced optical nonlinearity and efficient Q-switched lasing

Author

Nie, W. J., Zhang, Y. X., Yu, H. H., Li, R., He, R. Y., Dong, N. N., Wang, J., Hübner, R., Böttger, R., Zhou, S. Q., Amekura, H., and Chen, F.

Subjects
Physics::Optics
Abstract

We report on the synthesis of embedded gold (Au) nanoparticles (NPs) in Nd:YAG single crystals using ion implantation and subsequent thermal annealing. Both linear and nonlinear absorption of the Nd:YAG crystals have been enhanced significantly due to the embedded Au NPs, which is induced by the surface plasmon resonance (SPR) effect in the visible light wavelength band. Particularly, through a typical Z-scan system excited by a femtosecond laser at 515 nm within the SPR band, the nonlinear absorption coefficients of crystals with Au NPs have been observed to be nearly 5 orders of magnitude larger than that without Au NPs. This giant enhancement of nonlinear absorption properties is correlated with the saturable absorption (SA) effect, which is the basis of passive Q-switching or mode-locking for pulsed laser generation. In addition, the linear and nonlinear absorption enhancement could be tailored by varying the fluence of implanted Au+ ions, corresponding to the NP size and concentration modulation. Finally, the Nd:YAG wafer with embedded Au NPs has been applied as a saturable absorber in a Pr:LuLiF4 crystal laser cavity, and efficient pulsed laser generation at 639 nm has been realized, which presents superior performance to the MoS2 saturable absorber based system. This work opens an avenue to enhance and modulate the nonlinearities of dielectrics by embedding plasmonic Au NPs for efficient pulsed laser operation.

Published
2018

36. Annealing effect on ferromagnetic properties, hole concentration and electronic band structure of GaMnAs epitaxial layers

Author

Zhu, J. J., Li, L., Chen, L., Prucnal, S., Grenzer, J., Zhao, J. H., Helm, M., and Zhou, S. Q.

Subjects
DMS, doping, magnetic properties, GaMnAs
Abstract

In this paper, we analyze the correlation of the magnetism and the carrier concentration with the shift of the spectroscopic critical points for low compensated GaMnAs samples with a high Curie temperature of around 150 K. The GaMnAs layers were grown by low-temperature molecular beam epitaxy. The low-temperature annealing leads to a reduction of Mn interstitials from 0.8 to 0.4% and an enhancement in the hole concentration. The saturation magnetization is 51 emu/cm and the Curie temperature is 150 K after post-growth annealing, while those of as-grown layers are 37 emu/cm and 80 K. The resistivity dropped significantly after the post-growth annealing, due to the fact that the number of Mn, which act as double donors and compensate holes, was significantly reduced by the low-temperature and long-time annealing. The electronic band structure is investigated by spectroscopic ellipsometry. The transition energies of critical points show redshift after post-growth annealing due to the annealing-induced enhancement of the hole concentration. Our results support the valence band picture (the Zener model) in ferromagnetic GaMnAs.

Published
2017

37. Tailoring Optical Properties of Atomically-Thin WS2 via Ion Irradiation

Author

Tan, L. N., Tan, Y., Ghorbani-Asl, M., Boettger, R., Kretschmer, S., Zhou, S. Q., Huang, Z. Y., Krasheninnikov, A. V., and Chen, F.

Subjects
optical properties, Ion irradiation, WS2
Abstract

Two-dimensional transition metal dichalcogenides (TMDCs) exhibit excellent optoelectronic properties. However, the large band gaps in many semiconducting TMDCs make optical absorption in the near-infrared (NIR) wavelength regime impossible, which prevents applications of these materials in optical communications. In this work, we demonstrate that Ar+ ion irradiation is a powerful post-synthesis technique to tailor the optical properties of the semiconducting tungsten disulfide (WS2) by creating S vacancies and thus controlling material stoichiometry. First-principles calculations reveal that the S-vacancies give rise to deep states in the band gap, which determine the NIR optical absorption of the WS2 monolayer. As the density of the S-vacancies increases, the enhanced NIR linear and saturable absorption of WS2 is observed, which is explained by the results of first-principles calculations. We further demonstrate that by using the irradiated WS2 as a saturable absorber in a waveguide system, the passively Q-switched laser operations can be optimized, opening thus new avenues for tailoring the optical response of TMDCs by defect-engineering through ion irradiation.

Published
2017

39. Dirac loops in two-dimensional topological material T-graphene

Author

Liu, Y., Wang, G., Huang, Q. S., Guo, L. W., Chen, X. L., and Zhou, S. Q.

Subjects
first-principles calculations, graphene, Dirac fermions, 2D materials
Abstract

Graphene possesses a peculiar band structure and hence exhibits many fascinating properties from room temperature quantum Hall effect to massless Dirac fermions. With the understanding of graphene, topological materials with the properties similar to or even beyond graphene gradually rise and draw much attention, such as Silicene, Bi2Se3, WTe2 and most recently TaAs. Then a question arises: is it possible for another 2D carbon lattice to exhibit similar properties? If so, what are the determining factors? Here, we demonstrate that a novel two-dimensional carbon allotrope called T-graphene can possess Type-I Dirac points / loops based on the first-principles calculations [1]. T-graphene described by the plane group p4mm (See Fig. 1) can be energetically metastable and dynamically stable. The band structure of T-graphene in Fig. 1 shows the linear dispersion relation at the Fermi level. Two Dirac points are located at asymmetric positions Ξ(0.170, 0.170) between Γ and M and Λ(0, 0.249) between X and Γ, respectively. Furthermore, the linear dispersion relation near the Fermi surface exists in every direction and the cross points form a loop. Such Dirac fermions and a high υF are attributed to crossing π and π* bands and two sublattices. Under certain structure tailoring or straining, the linear dispersion relation is found to be retained. Two type of nanoribbons tailored from T graphene are predicted to have interesting magnetic properties. Besides, two possible routes to obtain T graphene are proposed: carbon deposition on certain metal substrates or electron beam irradiation on the tailored graphene growing on Ni (111). The results provide new insights to search and fabricate two-dimensional topological material.

Published
2016

41. Ferromagnetism induced by vacancy clusters in Silicon

Author

Liu, Y., Zhang, X. H., Yuan, Q., Han, J. C., Zhou, S. Q., and Song, B.

Subjects
defect-induced ferromagnetism, silicon, semiconductors, neutron irradiation
Abstract

Defect-induced ferromagnetism provides an alternative for organic and semiconductor spintronics. Though it is weak, it can be stable above room temperature. Till now it has been confirmed at least in oxides [1, 2] and carbon based materials [3, 4]. Interestingly, the relation between magnetism and defects in Silicon was demonstrated decades ago [5]. Since then, some progresses were made [6-9] and push forward the research of magnetic Mn doped Si a lot but it is drawn little attention itself. Here, with the latest growth purifying technique and sensitive measurements, we investigated the magnetism in Silicon after neutron irradiation and try to correlate the observed magnetism to particular defects in Si.

Published
2015

42. Direct and converse magnetoelectric effects in Ni43Mn41Co5Sn11/Pb(Zr,Ti)O3 laminate.

Author

Chen, S. Y., Ye, Q. Y., Miao, W., Wang, D. H., Wan, J. G., Liu, J.-M., Du, Y. W., Huang, Z. G., and Zhou, S. Q.

Subjects
LAMINATED materials, ELECTROMAGNETIC theory, GEOMAGNETISM, MAGNETIC fields, MAGNETISM
Abstract

A ferromagnetic shape memory alloy was utilized to construct a Ni43Mn41Co5Sn11/Pb(Zr,Ti)O3 laminate. Large direct and converse magnetoelectric (ME) effects were observed at resonance frequencies around the martensitic transition temperature of Ni43Mn41Co5Sn11 alloy, and the temperature affects the ME properties remarkably. The ME coefficients respond almost linearly to the applied ac electric or magnetic field. The mechanism of both direct and converse ME effects in the laminate is discussed. [ABSTRACT FROM AUTHOR]

Published
2010
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43. Millisecond-range liquid phase recrystallization for III-V/Si heteronanojunction fabrication

Author

Prucnal, S., Zhou, S. Q., Bregolin, F. L., Ou, X., Liedke, M. O., Huebner, R., Helm, M., Zuk, J., Turek, M., Pyszniak, K., Drozdziel, A., and Skorupa, W.

Subjects
flash lamp annealing, silicon, ion implantation, III-V
Abstract

The downscaling and stressor technology of Si based devices are extending the performance of the silicon channel to its limits. One promising solution for the performance progress which can overcome those limits is the integration of different functional optoelectronic elements within one chip. We have developed a compact, CMOS compatible and fully integrated solution for the integration of III-V compound semiconductors with silicon technology for optoelectronic applications. The III-V nanostructured semiconductors are synthesized in silicon based matrixes using the combination of ion beam implantation and millisecond flash lamp annealing (FLA) techniques via millisecond range liquid phase epitaxy [1, 2]. In this paper we will present investigations of the microstructural, optical and electrical properties of InAs and InP nanostructures formed in silicon and on SOI wafers. The growth evolution of the III-V nanostructures during FLA and the influence of the annealing parameters on their crystallographic orientation, shape and size will be explored. Conventional selective etching was used to form the n-III-V/p-Si heterojunction. The current-voltage measurement confirms the heterojunction diode formation between n-type III-V quantum dots and p-type Si. The main advantage of our method is its integration with large-scale silicon technology, which also allows its application for the fabrication of Si-based optoelectronic devices.

Published
2013

44. III-V compound semiconductors integrated with silicon for functional optoelectronic devices

Author

Prucnal, S., Facsko, S., Mücklich, A., Zhou, S. Q., Ou, X., Liedke, M. O., Turek, M., Zuk, J., and Skorupa, W.

Subjects
Ion implantation, FLA, silicon, quantum dots
Abstract

The downscaling and stressor technology of Si based devices is extending the performance of the silicon channel to its limits. The further downsizing of CMOS devices below 16 nm will need to solve some of the practical limits caused by one of the integration issues, such as chip performance, cost of development and production, power dissipation, reliability, etc. One solution for the performance progress which can overcome the downsizing limit in silicon technology is the integration of different functional optoelectronic elements within one chip. We propose to realize a compact, CMOS compatible and fully integrated solution for the integration of III-V compound semiconductors with silicon technology for optoelectronic applications. The III-V nanostructured semiconductors are synthesized in silicon using the combined ion beam implantation and millisecond flash lamp annealing (FLA) techniques [1]. The FLA appears to be the most suitable one for this purpose. The energy budget introduced to the sample during FLA is sufficient to recrystallize silicon amorphized during the ion implantation and to form III-V nanocrystals (NCs). In this paper we will present investigations of the microstructural, optical and electrical properties of III-V quantum dots (InAs, GaAs and InP) formed in silicon. Conventional selective etching was used to form the n-III-V/p-Si heterojunction. The current-voltage measurement confirms the heterojunction diode formation between n-type III-V quantum dots and p-type Si. The main advantage of our method is its integration with large-scale silicon technology, which also allows applying it for Si-based photronic devices. [1] S. Prucnal, S. Facsko, Ch. Baumgart, et al. NanoLett. 11, 2814 (2011).

Published
2012

45. III-V/Si heterostructures fully integrated into silicon

Author

Prucnal, S., Facsko, S., Baumgart, C., Schmidt, H., Liedke, M. O., Mücklich, A., Zhou, S. Q., and Skorupa, W.

Subjects
heterojunction, flash lamp annealing, ion implantation, III-V
Abstract

Integration of III-V semiconductors with a silicon technology is crucial for the devices performance. In this paper we present investigations of the microstructural, optical and electrical properties of III-V quantum dots (InAs, GaAs, InP and GaP) formed in silicon. The III-V QDs were obtained by means of sequential ion implantation and flash lamp annealing (FLA). Conventional selective etching was used to form the n-III-V/p-Si heterojunction. In case of InAs/Si heterostructures, the current-voltage measurement confirms the heterojunction diode formation with the ideality factor of n=4.6. Kelvin Probe Force Microscopy measurements indicate a type-II band alignment of n-type InAs NPs on p-type silicon. The main advantage of our method is its integration with large-scale silicon technology, which also allows applying it for Si-based electronic devices.

Published
2011

46. Activation of acceptor levels in Mn implanted Si by pulsed laser annealing

Author

Li, L., Zhou, S. Q., Bürger, D., Fassbender, J., Helm, M., Schmidt, H., Oesterlin, P., and Yao, S. D.

Subjects
pulsed laser annealing, acceptor level, Si, Mn
Abstract

The success of GaMnAs ferromagnetic semiconductors stands on two facts: (1) the efficient suppression of Mn-rich precipitates and (2) the large hole concentration created by substitutional Mn ions. If GaMnAs can be a guide, these two prerequisites should be considered when fabricating Si based ferromagnetic semiconductors. In this paper, nearly intrinsic Si wafers were implanted with Mn ions. The implanted Si films were annealed by pulsed laser annealing (PLA) or rapid thermal annealing (RTA). Activation of acceptors was only realized in the PLA films with a free hole concentration of 4×1017 cm-3, compared to the activation of donors in RTA films with a free electron concentration of 6×1015 cm-3. The PLA films reveal negative magnetoresistance with MR= 0.5% at 20 K and 30 K and at 7 T, hinting towards spin polarization of holes. Ferromagnetism was probed for both RTA and PLA films by a SQUID magnetometer at low temperatures. The formation of ferromagnetic MnSi1.7 nanoparticles has been proven in RTA films by synchrotron radiation X-ray (SR-XRD) measurements [1] and could be excluded in Mn implanted Si annealed by PLA. [1] S. Zhou et al., Phys. Rev. B 75, 085203 (2007).

Published
2010

47. Electrical and Magnetic Properties of Polycrystalline Mn-Doped BaTiO3 Thin Films Grown on Pt/Sapphire Substrates by Pulsed Laser Deposition

Author

Shuai, Y., Zhou, S. Q., and Schmidt, H.

Subjects
multiferroics, magnetism, barium titanate, ferroelectricity, bound magnetic polarons
Abstract

5 at.% Mn-doped and undoped, 200 nm thick BaTiO3 thin films have been grown under different oxygen partial pressures by pulsed laser deposition on Pt/sapphire substrates. X-ray diffraction (XRD) measurements reveal the same polycrystalline single-phase perovskite structure for all the thin films despite the different oxygen partial pressure, while their preferred orientation strongly depends on the oxygen partial pressure. The 5 at. % Mn-doping decreases the dielectric loss of the Mn-doped BaTiO3 thin films, however, their relative permittivity is also decreased. Ferroelectricity has been probed on the Mn-doped and undoped BaTiO3 thin films grown under relatively high oxygen partial pressure. A ferromagnetic coupling of the Mn dopant ions has been probed at room tempetature on the Mn-doped BaTiO3 thin films prepared under low oxygen partial pressure and is understood in terms of the bound magnetic polaron model.

Published
2010

50. Nanoarchitecture of a III-V semiconductor-on-silicon platform made by ion implantation and millisecond flash lamp annealing

Author

Prucnal, S., Zhou, S. Q., Ou, X., Fritzsche, M., Reuther, H., Grebing, J., Liedke, M. O., Liedke, B., Mücklich, A., Helm, M., Zuk, J., Turek, M., Drozdziel, A., Skorupa, W., Prucnal, S., Zhou, S. Q., Ou, X., Fritzsche, M., Reuther, H., Grebing, J., Liedke, M. O., Liedke, B., Mücklich, A., Helm, M., Zuk, J., Turek, M., Drozdziel, A., and Skorupa, W.

Abstract

The downscaling and stressor technology of Si based devices is extending the performance of the silicon channel to its limits. One solution for the performance progress which can overcome the downsizing limit in the silicon technology is the integration of different functional optoelectronic elements within one chip. For the on-chip optical interconnections a different material has to be used, e.g. a direct band gap III-V compound semiconductor material. Besides efficient light emission many of the binary semiconductors exhibit much larger carrier mobility than silicon. This feature is crucial for a further performance enhancement of advanced devices. Recently we have demonstrated a compact, CMOS compatible and fully integrated solution for the integration of III-V semiconductor nanocrystals with silicon technology for optoelectronic applications. They are synthesized in silicon using combined ion beam implantation and millisecond flash lamp annealing (FLA) techniques [NanoLett. 11, 2814 (2011)]. FLA appears to be the most suitable technique for this purpose. The energy budget introduced to the sample during FLA is sufficient to recrystallize silicon amorphized during ion implantation and to form III-V nanocrystals (NCs) via the liquid phase processes. Microstructural, optical and electrical properties of III-V nanostructures (InAs, GaAs and InP) formed in silicon or on SOI wafers will be presented. The evolution of the III-V nanostructures growth during FLA and the influence of the annealing parameters on theirs crystallographic orientation, shape and size will be explored. Moreover, a self-organization of the III-V nano-objects on the SOI wafers after flashing will be presented. A unique nano-swelling effect appearing during ion implantation of the SOI wafers combined with millisecond range liquid phase epitaxy leads to the evolution of the III-V semiconductors from the quantum dots to the nano-films. Conventional selective etching was used to form the n-III-V/p-S

Published
2012

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