Coronary artery fistula(CAF) is a relatively uncommon cardiovascular disease. It is an abnormal communication between a coronary artery and a cardiac chamber, great vessels, or other vascular structures. Most are cong...Coronary artery fistula(CAF) is a relatively uncommon cardiovascular disease. It is an abnormal communication between a coronary artery and a cardiac chamber, great vessels, or other vascular structures. Most are congenital. Multiplane transesophageal echocardiography(multiplane TEE. MTEE) can reveal the proximal dilation, the course and the drainage site of CAF. Presented in this paper was a report of right coronary artery-left ventricle fistula , for the first time,right coronary-left ventricle fistula diagnosed by MTEE and confirmed by angiography.展开更多
Data exchange between different mode channels is essential in the optical communication network with mode-division multiplexing(MDM).However,there are challenges in realizing mode exchange with low insert loss,low mod...Data exchange between different mode channels is essential in the optical communication network with mode-division multiplexing(MDM).However,there are challenges in realizing mode exchange with low insert loss,low mode crosstalk,and high integration.Here,we designed and fabricated a mode exchange device based on multiplane light conversion(MPLC),which supports the transmission of LP01,LP11a,LP11b,and LP21 modes in the C-band and L-band.The simulated exchanged mode purities are greater than 85%.The phase masks were fabricated on a silicon substrate to facilitate the integration with optical systems,with an insert loss of less than 2.2 dB and mode crosstalk below-21 dB due primarily to machining inaccuracies and alignment errors.We carried out an optical communication experiment with 10 Gbit/s OOK and QPSK data transmission at the wavelength of 1550 nm and obtained excellent performance with the device.It paves the way for flexible data exchange as a building block in MDM optical communication networks.展开更多
Shaping the light beam is always essential for laser technology and its applications.Among the shaping technologies,shaping the laser in its Fourier domain is a widely used and effective method,such as a pulse shaper,...Shaping the light beam is always essential for laser technology and its applications.Among the shaping technologies,shaping the laser in its Fourier domain is a widely used and effective method,such as a pulse shaper,or a 4f system with a phase mask or an iris in between.Orbital angular momentum(OAM)modes spectrum,the Fourier transform of the light field in azimuth,provides a perspective for shaping the light.Here,we propose and experimentally demonstrate a shaping strategy for the azimuthal field by modulating the complex amplitude of the OAM mode spectrum.The scheme utilizes multi-plane light conversion technology and consists only of a spatial light modulator and a mirror.Multiple functions,including beam rotating,beam splitting/combining in azimuth,and OAM mode filtering,are demonstrated.Our work provides a compact and programmable solution for modulating the OAM mode spectrum and shaping beams in azimuth.展开更多
Aim: To assess volume management in patients presenting with breast asymmetry and ptosis. Methods: Retrospectively collected data was analysed. The patients were divided into 3 groups. Group A included patients who ha...Aim: To assess volume management in patients presenting with breast asymmetry and ptosis. Methods: Retrospectively collected data was analysed. The patients were divided into 3 groups. Group A included patients who had volumetric difference alone and had different size implants alone. Group B included patients who had volumetric difference with breast ptosis requiring mastopexy with different size implants. Group C included patients who presented with breast asymmetry with ptosis and had same size implants on both sides with different volume breast reduction. Results: Subgroup A1 included 145 patients who had larger implants placed on right side. Subgroup A2 included 95 patients who had larger implants on the left side. Subgroup B1 included 7 patients who had larger implants on the right. Subgroup B2 included 13 patients who had larger implant on the left side. Subgroup C1 included 7 patients who had larger reduction on right side. Subgroup C2 included 11 patients who had larger reduction on left. Conclusion: When different volume implants are used, the vast majority of the patients do not require a volume difference of more than 60 mL. When the breast is larger on the right then larger mean volumes are used on left side to offset the larger right breast.展开更多
文摘Coronary artery fistula(CAF) is a relatively uncommon cardiovascular disease. It is an abnormal communication between a coronary artery and a cardiac chamber, great vessels, or other vascular structures. Most are congenital. Multiplane transesophageal echocardiography(multiplane TEE. MTEE) can reveal the proximal dilation, the course and the drainage site of CAF. Presented in this paper was a report of right coronary artery-left ventricle fistula , for the first time,right coronary-left ventricle fistula diagnosed by MTEE and confirmed by angiography.
基金supported by the Guangdong Major Project of Basic Research(No.2020B0301030009)the National Natural Science Foundation of China(Nos.U23A20372,61935013,62105215,and 62275171)+3 种基金the Shenzhen Peacock Plan(No.KQTD20170330110444030)the Stable Support Project of Shenzhen(Nos.20220810152651001 and 20220811103827001)the Natural Science Foundation of GuangdongProvince(Nos.2020A1515011185and 2022A1515011642)Shenzhen University(No.2019075)。
文摘Data exchange between different mode channels is essential in the optical communication network with mode-division multiplexing(MDM).However,there are challenges in realizing mode exchange with low insert loss,low mode crosstalk,and high integration.Here,we designed and fabricated a mode exchange device based on multiplane light conversion(MPLC),which supports the transmission of LP01,LP11a,LP11b,and LP21 modes in the C-band and L-band.The simulated exchanged mode purities are greater than 85%.The phase masks were fabricated on a silicon substrate to facilitate the integration with optical systems,with an insert loss of less than 2.2 dB and mode crosstalk below-21 dB due primarily to machining inaccuracies and alignment errors.We carried out an optical communication experiment with 10 Gbit/s OOK and QPSK data transmission at the wavelength of 1550 nm and obtained excellent performance with the device.It paves the way for flexible data exchange as a building block in MDM optical communication networks.
基金supported by the National Key Research and Development Program of China (Grant No.2019YFA0706302)the National Natural Science Foundation of China (Grant No.62335019)+2 种基金the Basic and Applied Basic Research Foundation of Guangdong Province (Grant Nos.2021B1515020093 and 2021B1515120057)the Science and Technology Program of Guangzhou (Grant No.202103030001)the Local Innovative and Research Teams Project of Guangdong Pearl River Talents Program (Grant No.2017BT01X121).
文摘Shaping the light beam is always essential for laser technology and its applications.Among the shaping technologies,shaping the laser in its Fourier domain is a widely used and effective method,such as a pulse shaper,or a 4f system with a phase mask or an iris in between.Orbital angular momentum(OAM)modes spectrum,the Fourier transform of the light field in azimuth,provides a perspective for shaping the light.Here,we propose and experimentally demonstrate a shaping strategy for the azimuthal field by modulating the complex amplitude of the OAM mode spectrum.The scheme utilizes multi-plane light conversion technology and consists only of a spatial light modulator and a mirror.Multiple functions,including beam rotating,beam splitting/combining in azimuth,and OAM mode filtering,are demonstrated.Our work provides a compact and programmable solution for modulating the OAM mode spectrum and shaping beams in azimuth.
文摘Aim: To assess volume management in patients presenting with breast asymmetry and ptosis. Methods: Retrospectively collected data was analysed. The patients were divided into 3 groups. Group A included patients who had volumetric difference alone and had different size implants alone. Group B included patients who had volumetric difference with breast ptosis requiring mastopexy with different size implants. Group C included patients who presented with breast asymmetry with ptosis and had same size implants on both sides with different volume breast reduction. Results: Subgroup A1 included 145 patients who had larger implants placed on right side. Subgroup A2 included 95 patients who had larger implants on the left side. Subgroup B1 included 7 patients who had larger implants on the right. Subgroup B2 included 13 patients who had larger implant on the left side. Subgroup C1 included 7 patients who had larger reduction on right side. Subgroup C2 included 11 patients who had larger reduction on left. Conclusion: When different volume implants are used, the vast majority of the patients do not require a volume difference of more than 60 mL. When the breast is larger on the right then larger mean volumes are used on left side to offset the larger right breast.
