PMID-sentid Pub_year Sent_text comp_official_name comp_offsetprotein_name organism prot_offset 29401957-3 2018 We previously reported a novel technique named multiple aperture synthesis (MAS) to extend the DOF in high-resolution OCT [Optica4, 701 (2017)]. dof 95-98 plexin A2 Homo sapiens 118-121 25401845-5 2014 Simulation results show that a DOF gain of 4.2 can be achieved compared with a full aperture OCT (FA-OCT) system, with a suppression ratio of 2.9 dB for the first sidelobe compared with an annular-aperture bright-field OCT (BF-OCT) system. dof 31-34 plexin A2 Homo sapiens 101-104 25401845-5 2014 Simulation results show that a DOF gain of 4.2 can be achieved compared with a full aperture OCT (FA-OCT) system, with a suppression ratio of 2.9 dB for the first sidelobe compared with an annular-aperture bright-field OCT (BF-OCT) system. dof 31-34 plexin A2 Homo sapiens 101-104 25401845-5 2014 Simulation results show that a DOF gain of 4.2 can be achieved compared with a full aperture OCT (FA-OCT) system, with a suppression ratio of 2.9 dB for the first sidelobe compared with an annular-aperture bright-field OCT (BF-OCT) system. dof 31-34 plexin A2 Homo sapiens 101-104 25401845-6 2014 Experimental results show that the constructed DF-OCT extends the DOF by three-fold compared with the constructed FA-OCT, and suppresses the first sidelobe by 3.1 dB compared with the BF-OCT. dof 66-69 plexin A2 Homo sapiens 50-53