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1. Q-BiC: A biocompatible integrated chip for in vitro and in vivo spin-based quantum sensing

Author

Shanahan, Louise, Belser, Sophia, Hart, Jack W., Gu, Qiushi, Roth, Julien R. E., Mechnich, Annika, Hoegen, Michael, Pal, Soham, Jordan, David, Miska, Eric A., Atature, Mete, and Knowles, Helena S.

Subjects
Quantum Physics, Physics - Biological Physics
Abstract

Optically addressable spin-based quantum sensors enable nanoscale measurements of temperature, magnetic field, pH, and other physical properties of a system. Advancing the sensors beyond proof-of-principle demonstrations in living cells and multicellular organisms towards reliable, damage-free quantum sensing poses three distinct technical challenges. First, spin-based quantum sensing requires optical accessibility and microwave delivery. Second, any microelectronics must be biocompatible and designed for imaging living specimens. Third, efficient microwave delivery and temperature control are essential to reduce unwanted heating and to maintain an optimal biological environment. Here, we present the Quantum Biosensing Chip (Q-BiC), which facilitates microfluidic-compatible microwave delivery and includes on-chip temperature control. We demonstrate the use of Q-BiC in conjunction with nanodiamonds containing nitrogen vacancy centers to perform optically detected magnetic resonance in living systems. We quantify the biocompatibility of microwave excitation required for optically detected magnetic resonance both in vitro in HeLa cells and in vivo in the nematode Caenorhabditis elegans for temperature measurements and determine the microwave-exposure range allowed before detrimental effects are observed. In addition, we show that nanoscale quantum thermometry can be performed in immobilised but non-anaesthetised adult nematodes with minimal stress. These results enable the use of spin-based quantum sensors without damaging the biological system under study, facilitating the investigation of the local thermodynamic and viscoelastic properties of intracellular processes.

Published
2024

2. Collaboration between artificial intelligence and Earth science communities for mutual benefit

Author

Chen, Min, Qian, Zhen, Boers, Niklas, Creutzig, Felix, Camps-Valls, Gustau, Hubacek, Klaus, Claramunt, Christophe, Wilson, John P., Nativi, Stefano, Jakeman, Anthony J., Müller, R. Dietmar, Batty, Michael, Zhou, Chenghu, Chen, Fahu, Wang, Qiao, Zhang, Fan, Barton, C. Michael, Strobl, Josef, Meadows, Michael, Ratti, Carlo, Hess, Philipp, Xu, Qingsong, Zhang, Zhixin, Gu, Qiushi, Zhu, A-Xing, Lin, Hui, Yuan, Linwang, and Lü, Guonian

Published
2024
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4. Simultaneous nanorheometry and nanothermometry using intracellular diamond quantum sensors

Author

Gu, Qiushi, Shanahan, Louise, Hart, Jack W., Belser, Sophia, Shofer, Noah, Atature, Mete, and Knowles, Helena S.

Subjects
Quantum Physics, Physics - Biological Physics
Abstract

Viscoelasticity of the cytoplasm plays a critical role in cell morphology and division. In parallel, local temperature is coupled to viscoelasticity and influences cellular bioenergetics. Probing the interdependence of intracellular temperature and viscoelasticity provides an exciting opportunity for the study of metabolism and disease progression. Here, we present a dual-mode quantum sensor, capable of performing simultaneous nanoscale thermometry and rheometry in a dynamic cellular environment. Our technique uses nitrogen-vacancy centres in nanodiamond, combining sub-diffraction resolution single-particle tracking in a fluidic environment with optically detected magnetic resonance spectroscopy. We demonstrate nanoscale sensing of temperature-dependent viscoelasticity in complex media. We then use our sensor to investigate the interplay between intracellular forces and cytoplasmic rheology in live cells, revealing details of active trafficking and nanoscale viscoelasticity.

Published
2023

5. A quantum coherent spin in a two-dimensional material at room temperature

Author

Stern, Hannah L., Gilardoni, Carmem M., Gu, Qiushi, Barker, Simone Eizagirre, Powell, Oliver, Deng, Xiaoxi, Follet, Louis, Li, Chi, Ramsay, Andrew, Tan, Hark Hoe, Aharonovich, Igor, and Atatüre, Mete

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Quantum Physics
Abstract

Quantum networks and sensing require solid-state spin-photon interfaces that combine single-photon generation and long-lived spin coherence with scalable device integration, ideally at ambient conditions. Despite rapid progress reported across several candidate systems, those possessing quantum coherent single spins at room temperature remain extremely rare. Here, we report quantum coherent control under ambient conditions of a single-photon emitting defect spin in a a two-dimensional material, hexagonal boron nitride. We identify that the carbon-related defect has a spin-triplet electronic ground-state manifold. We demonstrate that the spin coherence is governed predominantly by coupling to only a few proximal nuclei and is prolonged by decoupling protocols. Our results allow for a room-temperature spin qubit coupled to a multi-qubit quantum register or quantum sensor with nanoscale sample proximity.

Published
2023

9. Room-temperature optically detected magnetic resonance of single defects in hexagonal boron nitride

Author

Stern, Hannah L., Jarman, John, Gu, Qiushi, Barker, Simone Eizagirre, Mendelson, Noah, Chugh, Dipankar, Schott, Sam, Tan, Hoe H., Sirringhaus, Henning, Aharonovich, Igor, and Atatüre, Mete

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Quantum Physics
Abstract

Optically addressable spins in materials are important platforms for quantum technologies, such as repeaters and sensors. Identification of such systems in two-dimensional (2d) layered materials offers advantages over their bulk counterparts, as their reduced dimensionality enables more feasible on-chip integration into devices. Here, we report optically detected magnetic resonance (ODMR) from previously identified carbon-related defects in 2d hexagonal boron nitride (hBN). We show that single-defect ODMR contrast can be as strong as 6% and displays a magnetic-field dependence with both positive or negative sign per defect. This bipolarity can shed light into low contrast reported recently for ensemble ODMR measurements for these defects. Further, the ODMR lineshape comprises a doublet resonance, suggesting either low zero-field splitting or hyperfine coupling. Our results offer a promising route towards realising a room-temperature spin-photon quantum interface in hexagonal boron nitride.

Published
2021
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10. Interfacing spin-based quantum sensors with complex systems

Author

Gu, Qiushi and Atature, Mete

Subjects
NV centres in nanodiamond, 2D van der Waals materials, Nanothermometry, Nanoscale NMR
Abstract

Nitrogen-vacancy (NV) centres are naturally occurring colour centres in bulk diamond crystals that enable quantum sensing via optically active spin ground states. They have demonstrated high sensitivity in thermometry and magnetometry, reaching a temperature precision of 5mK/√Hz and magnetic field sensitivity of a single nuclear spin. Due to their nanometer size and ability to be chemically functionalised, diamond nanocrystals (nanodiamonds) offer sensing in systems inaccessible with bulk diamonds. Of particular interest is magnetometry and thermometry in biological systems. This thesis explores interfacing nanodiamonds host NV centres with complex systems for decoherence spectroscopy, relaxometry and thermometry. In Chapter 1, it is demonstrated that nanodiamonds can perform NMR experiments with nanoscale sensing volume. In this experiment a dynamical decoupling sequence is used to sense the stochastic and stationary magnetic field at the site of the NV created by the target nuclear spins. The spectral resolution of this technique is sufficient to distinguish between two different nuclear species 1H and 19F. Furthermore, a self-referenced calibration scheme is proposed and verified with experimental data to enhance the accuracy of concentration measurements, previously limited by the geometrical variability between nanodiamonds. In Chapter 3, nanodiamonds are used to study triplet exciton diffusion in an organic semiconductor material. In this experiment, NV relaxometry is used to probe the diffusion process of optically generated triplet excitons. It was observed that the longitudinal relaxation time of NV (T1) is related to the optical excitation of the organic material and that the depolarisation rate saturates at large optical excitation power. A stochastic Liouville equation model is used to model the spin diffusion process. In Chapter 4 and 5, nanodiamonds are used in thermometry to measure time-varying signal in biological cells. In this experiment, the theoretical temperature sensitivity is examined using Fisher information formalism and compared with experimental sensitivity. This forms the basis of optimal ODMR frequency sampling in situations where the ODMR lineshape fluctuates. It was also demonstrated that it is possible to simultaneously perform ODMR measurements and track single nanodiamonds, using an orbital tracking method. This enables a single nanodiamond to be measured over hours despite thermal motion. Simultaneously, the temperature can be determined with a sensitivity of 1.5K/√Hz and the position with an accuracy of 7.7 nm. With these technical improvements the intracellular temperature variation in HeLa cells is measured when the cells are subjected to external temperature modulation or chemical stimuli. Finally, despite the success of NV centres in diamond for room-temperature quantum sensing, in Chapter 6, we explore a novel two dimensional material, hexagonal boron nitride, that offers a more scalable platform for future quantum sensing applications. In this experiment, we identified stable spin-addressable single emitters at room temperature. ODMR experiments reveal the fine structure of the defect which was modelled as a spin triplet. Photokinetic properties are investigated with second order intensity correlation measurements and an optical level structure is proposed to provide a brand new understanding of this novel quantum sensing platform. This provides a basis for tackling the issues facing nanodiamond.

Published
2021
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12. Nanoscale NMR Spectroscopy using Self-Calibrating Nanodiamond Quantum Sensors

Author

Holzgrafe, Jeffrey, Gu, Qiushi, Beitner, Jan, Kara, Dhiren, Knowles, Helena S., and Atatüre, Mete

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Chemical Physics, Quantum Physics
Abstract

Conventional nuclear magnetic resonance (NMR) spectroscopy relies on acquiring signal from a macroscopic ensemble of molecules to gain information about molecular structure and dynamics. Transferring this technique to nanoscale sample sizes would enable molecular analysis without the effects of averaging over spatial and temporal inhomogeneities and without the need for macroscopic volumes of analyte, both inherent to large ensemble measurements. Nanoscale NMR based on nitrogen vacancy (NV) centers inside bulk diamond chips achieves single nuclear spin sensitivity and the resolution required to determine chemical structure, but their detection volume is limited to a few nanometers above the diamond surface for the most sensitive devices. This precludes them from use for nuclear spin sensing with nanoscale resolution inside thicker structures, such as cells. Here, we demonstrate the detection of NMR signals from multiple nuclear species in a (19 nm)3 volume using versatile NV-NMR devices inside nanodiamonds that have a typical 30 nm diameter. The devices detect a signal generated by a small number of analyte molecules on the order of 1000. To use these devices in situ, the detected signal must be corrected for the unknown geometry of each nanodiamond device. We show that such a calibration could be performed by exploiting the signal from a thin layer of nuclei on the diamond surface. These results, combined with the low toxicity of nanodiamonds and their amenability to surface functionalization, indicate that nanodiamond NV-NMR devices could become a useful tool for nanoscale NMR-based sensing inside living cells.

Published
2019

19. Evolution Pattern of Rural Tourism Investment Location Choice from the Perspective of Human-Land Relationship System: Based on a Case Study of Zhejiang Province, China.

Author

LI Tao, WANG Lei, and GU Qiushi

Subjects
RURAL tourism, TOURIST attractions, DECISION making in investments, INDUSTRIAL efficiency, RURAL development
Abstract

Copyright of Journal of Resources & Ecology is the property of Journal of Resources & Ecology and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2024
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22. Wine tourism development in China

Author

Fountain, Joanna, primary, Yuan, Jingxue (Jessica), additional, Zhai, Beifang, additional, Bauman, Matthew J., additional, Williams, Helena A., additional, and Gu, Qiushi, additional

Published
2020
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24. Opportunities for diamond quantum metrology in biological systems.

Author

Belser, Sophia, Hart, Jack, Gu, Qiushi, Shanahan, Louise, and Knowles, Helena S.

Subjects
BIOLOGICAL systems, NANODIAMONDS, DIAMONDS, METROLOGY, SPATIAL resolution, NANOPARTICLES, BIOELECTRONICS
Abstract

Sensors that harness quantum mechanical effects can enable high sensitivity and high spatial resolution probing of their environment. The nitrogen-vacancy defect in diamond, a single, optically accessible electronic spin, is a promising quantum sensor that can operate in soft and living systems and provides nanoscale spatial resolution when hosted inside a diamond nanoparticle. Nanodiamond quantum sensors are nontoxic, amenable to surface functionalization, and can be introduced into a variety of living systems. The optical readout of the spin provides detailed information about the local electromagnetic and thermal environment in a noninvasive way. In this Perspective, we introduce the different modalities that nanodiamond quantum sensors offer, highlight recent progress in quantum sensing of biological systems, and discuss remaining challenges and directions for future efforts. [ABSTRACT FROM AUTHOR]

Published
2023
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25. Interfacing spin-based quantum sensors with complex systems

Author

Gu, Qiushi

Subjects
Nanoscale NMR, 2D van der Waals materials, Nanothermometry, NV centres in nanodiamond
Abstract

Nitrogen-vacancy (NV) centres are naturally occurring colour centres in bulk diamond crystals that enable quantum sensing via optically active spin ground states. They have demonstrated high sensitivity in thermometry and magnetometry, reaching a temperature precision of 5mK/√Hz and magnetic field sensitivity of a single nuclear spin. Due to their nanometer size and ability to be chemically functionalised, diamond nanocrystals (nanodiamonds) offer sensing in systems inaccessible with bulk diamonds. Of particular interest is magnetometry and thermometry in biological systems. This thesis explores interfacing nanodiamonds host NV centres with complex systems for decoherence spectroscopy, relaxometry and thermometry. In Chapter 1, it is demonstrated that nanodiamonds can perform NMR experiments with nanoscale sensing volume. In this experiment a dynamical decoupling sequence is used to sense the stochastic and stationary magnetic field at the site of the NV created by the target nuclear spins. The spectral resolution of this technique is sufficient to distinguish between two different nuclear species 1H and 19F. Furthermore, a self-referenced calibration scheme is proposed and verified with experimental data to enhance the accuracy of concentration measurements, previously limited by the geometrical variability between nanodiamonds. In Chapter 3, nanodiamonds are used to study triplet exciton diffusion in an organic semiconductor material. In this experiment, NV relaxometry is used to probe the diffusion process of optically generated triplet excitons. It was observed that the longitudinal relaxation time of NV (T1) is related to the optical excitation of the organic material and that the depolarisation rate saturates at large optical excitation power. A stochastic Liouville equation model is used to model the spin diffusion process. In Chapter 4 and 5, nanodiamonds are used in thermometry to measure time-varying signal in biological cells. In this experiment, the theoretical temperature sensitivity is examined using Fisher information formalism and compared with experimental sensitivity. This forms the basis of optimal ODMR frequency sampling in situations where the ODMR lineshape fluctuates. It was also demonstrated that it is possible to simultaneously perform ODMR measurements and track single nanodiamonds, using an orbital tracking method. This enables a single nanodiamond to be measured over hours despite thermal motion. Simultaneously, the temperature can be determined with a sensitivity of 1.5K/√Hz and the position with an accuracy of 7.7 nm. With these technical improvements the intracellular temperature variation in HeLa cells is measured when the cells are subjected to external temperature modulation or chemical stimuli. Finally, despite the success of NV centres in diamond for room-temperature quantum sensing, in Chapter 6, we explore a novel two dimensional material, hexagonal boron nitride, that offers a more scalable platform for future quantum sensing applications. In this experiment, we identified stable spin-addressable single emitters at room temperature. ODMR experiments reveal the fine structure of the defect which was modelled as a spin triplet. Photokinetic properties are investigated with second order intensity correlation measurements and an optical level structure is proposed to provide a brand new understanding of this novel quantum sensing platform. This provides a basis for tackling the issues facing nanodiamond.

Published
2022
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27. The effects of different travel modes and travel destinations on COVID-19 transmission in global cities

Author

Zhu, Rui, primary, Anselin, Luc, additional, Batty, Michael, additional, Kwan, Mei-Po, additional, Chen, Min, additional, Luo, Wei, additional, Cheng, Tao, additional, Lim, Che Kang, additional, Santi, Paolo, additional, Cheng, Cheng, additional, Gu, Qiushi, additional, Wong, Man Sing, additional, Zhang, Kai, additional, Lü, Guonian, additional, and Ratti, Carlo, additional

Published
2022
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31. The effects of different travel modes on COVID-19 transmission in global cities

Author

Zhu, Rui, primary, Anselin, Luc, additional, Batty, Michael, additional, Guan, Mei-Po, additional, Chen, Min, additional, Luo, Wei, additional, Cheng, Tao, additional, Lim, Che, additional, Santi, Paolo, additional, Cheng, Cheng, additional, Gu, Qiushi, additional, Wong, Man, additional, Zhang, Kai, additional, Lü, Guonian, additional, and Ratti, Carlo, additional

Published
2021
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39. Understanding the wine tourism experience: The roles of facilitators, constraints, and involvement.

Author

Gu, Qiushi, Qiu, Hanqin, King, Brian EM, and Huang, Songshan (Sam)

Subjects
WINE tourism, TOURIST attractions, AUSTRALIAN wines, COMMUNICATION barriers, EXPERIENCE
Abstract

Understanding the wine tourism experience is indispensable to the development of a wine tourism destination. This study tested an integrated model to obtain a better understanding of the wine tourism experience. The proposed model included both perceived wine tourism facilitators and constraints to examine their effects on wine tourism experience and tested the moderating role of involvement in these effects. Using Chinese outbound wine tourists in Australia as the study sample, this study identified that winery fame, interpersonal facilitators, and local attractions are three facilitating factors, while personal language and transportation barriers and time and information barriers were the perceived constraining factors. Both interpersonal facilitators and local attractions positively affected wine tourism experience; however, winery fame negatively influenced wine tourism experience. The study found that involvement moderated the effects of facilitators/constraints on wine tourism experience. For high-involvement wine tourists, the effect of local attractions is pronounced, while interpersonal facilitator negatively influences their wine tourism experience. Theoretical and practical implications are discussed. [ABSTRACT FROM AUTHOR]

Published
2020
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43. Report on Control/DAQ Software Design and Current State of Implementation for the Percival Detector

Author

Palaha, Arvinder, Angelsen, Christian, Bayer, Matthias, Cautero, Giuseppe, Correa, Jonathan, Das, Dipayan, Giuressi, Dario, Gnadt, Pierre, Graafsma, Heinz, Gu, Qiushi, Guerrini, Nicola, Göttlicher, Peter, Hyun, HyoJung, Khromova, Anastasiya, Kim, Kyung Sook, Lange, Sabine, Marchal, Julien, Marras, Alessandro, Marsh, Ben, Menk, Ralf, Nicholls, Tim, Pedersen, Ulrik, Pinaroli, Giovanni, Rah, Seungyu, Rees, Nick, Reza, Salim, Sedgwick, Iain, Shevyakov, Igor, Smoljanin, Sergej, Stebel, Luigi, Tartoni, Nicola, Turchetta, Renato, Wunderer, Cornelia, Xia, Qingqing, Yousef, Hazem, and Zimmer, Manfred

Subjects
Experimental Control, Accelerator Physics
Abstract

The increased brilliance of state-of-the-art Synchrotron radiation sources and Free Electron Lasers require imaging detectors capable of taking advantage of these light source facilities. The PERCIVAL ("Pixelated Energy Resolving CMOS Imager, Versatile and Large") detector is being developed in collaboration between DESY, Elettra Sincrotrone Trieste, Diamond Light Source and Pohang Accelerator Laboratory. It is a CMOS detector targeting soft X-rays < 1 KeV, with a high resolution of up to 13 M pixels reading out at 120 Hz, producing a challenging data rate of 6 GB/s. The controls and data acquisition system will include a SDK to allow integration with third party control systems like Tango and DOOCS; an EPICS areaDetector driver will be included by default. It will make use of parallel readout to keep pace with the data rate, distributing the data over multiple nodes to create a single virtual dataset using the HDF5 file format for its speed advantages in high volumes of regular data. This paper presents the design of the control system software for the Percival detector, an update of the current state of the implementation carried out by Diamond Light Source., Proceedings of the 15th Int. Conf. on Accelerator and Large Experimental Physics Control Systems, ICALEPCS2015, Melbourne, Australia

Published
2015
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44. Profiling Chinese wine tourists by wine tourism constraints: A comparison of Chinese Australians and long‐haul Chinese tourists in Australia.

Author

Gu, Qiushi and Huang, Songshan (Sam)

Subjects
WINE tourism, CHINESE people, TOURISTS, TRAVEL costs, ACCULTURATION
Abstract

This study aimed to profile Chinese wine tourists based on their perceived wine tourism constraints and develop a better understanding of the Chinese wine tourist market by comparing Chinese Australians with long‐haul Chinese tourists in Australia. A series of items measuring wine tourism constraints and negotiations were subjected to factor and cluster analyses. Four wine tourism constraint factors and three negotiation factors were identified. Based on the constraint factors, four segments, "group constrained by personal inhibitors," "group constrained by facilities and attractions," "less constrained group," and "highly constrained group," were identified. Analysis of variance and Chi‐square test results indicated that the four groups of Chinese migrants in Australia mainly varied by age, whereas long‐haul Chinese tourists differed more significantly in education and income. Chinese Australians were more likely to be less constrained and to be involved in wine tourism activities than long‐haul Chinese tourists. The former were also more likely to be self‐driving and repeat wine tourists. Comparatively, the latter group members engaged more in negotiation strategies. [ABSTRACT FROM AUTHOR]

Published
2019
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45. Controlled nanoparticle release from stable magnetic microbubble oscillations

Author

Gao, Yu, primary, Chan, Chon U, additional, Gu, Qiushi, additional, Lin, Xudong, additional, Zhang, Wencong, additional, Yeo, David Chen Loong, additional, Alsema, Astrid Marlies, additional, Arora, Manish, additional, Chong, Mark Seow Khoon, additional, Shi, Peng, additional, Ohl, Claus-Dieter, additional, and Xu, Chenjie, additional

Published
2016
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46. Wine tourism involvement: a segmentation of Chinese tourists.

Author

Gu, Qiushi, Qiu Zhang, Hanqin, King, Brian, and Huang, Songshan (Sam)

Subjects
*WINE tourism, *TOURIST attitudes
Abstract

This study profiles the Chinese wine tourist market based on levels of consumer involvement. Using a sample of 503 Chinese wine tourists visiting Australian wineries, the study identified four dimensions of involvement in wine tourism among Chinese tourists: Interests and Importance, Risk Importance and Possibility, Risk Avoidance, and Status Value. Based on the various levels of involvement, four clusters of Chinese wine tourists were identified: low-involvement wine tourists, highly involved wine tourists, interest-driven wine tourists, and high-risk perception wine tourists. For the group size, high-risk perception wine tourists included the highest number of people in the sample, while a relatively small number of people belonged to the interest-driven group. Significant differences were found for behavioral variables and activity participation level across the four clusters, but similarity outweighed the differences among demographic and socio-economic variables. The research proceeded to theoretical and marketing implications. [ABSTRACT FROM AUTHOR]

Published
2018
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48. Tourists’ spatiotemporal behaviors in an emerging wine region: A time-geography perspective

Author

<p>National Science Foundation of China Key Laboratory of Spatial Data Mining & Information Sharing of the Ministry of Education, Fuzhou University</p>, Gu, Qiushi, Zhang, Haiping, Huang, Songshan (Sam), Zheng, Fang, Chen, Chongcheng, <p>National Science Foundation of China Key Laboratory of Spatial Data Mining & Information Sharing of the Ministry of Education, Fuzhou University</p>, Gu, Qiushi, Zhang, Haiping, Huang, Songshan (Sam), Zheng, Fang, and Chen, Chongcheng

Abstract

Gu, Q., Zhang, H., Huang, S. S., Zheng, F., & Chen, C. (2021). Tourists’ spatiotemporal behaviors in an emerging wine region: A time-geography perspective. Journal of Destination Marketing & Management, 19, article 100513. https://doi.org/10.1016/j.jdmm.2020.100513

50. Understanding the wine tourism experience: The roles of facilitators, constraints, and involvement

Author

<p>National Natural Science Foundation of China</p>, Gu, Qiushi, Qiu, Hanqin, King, Brian E.M., Huang, Songshan Sam, <p>National Natural Science Foundation of China</p>, Gu, Qiushi, Qiu, Hanqin, King, Brian E.M., and Huang, Songshan Sam

Abstract

Gu, Q., Qiu, H., King, B. E., & Huang, S. (2020). Understanding the wine tourism experience: The roles of facilitators, constraints, and involvement. Journal of Vacation Marketing, 26(2), 211-229. https://doi.org/10.1177/1356766719880253

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