1 Virgil A. Marple, "Virtual impactors: a theoretical study." American Chemical Society (ACS) 14 (14): 976-985, 1980
2 Haglund, J., "Two Linear Slot Nozzle Virtual Impactors for Concentration of Bioaerosols" Texas A&M University 2003
3 R. F. Hounam, "The Cascade Centripeter: A Device for Determining the Concentration and Size Distribution of Aerosols" Informa UK Limited 26 (26): 122-131, 2007
4 Hung-Ying Chen, "Numerical and experimental study of virtual impactor design and aerosol separation" Elsevier BV 94 : 43-55, 2016
5 Kuniaki Gotoh, "Improvement of the Classification Performance of a Rectangular Jet Virtual Impactor" Informa UK Limited 32 (32): 221-232, 2000
6 W. Bergman, "High air flow, low pressure drop, bio-aerosol collector using a multi-slit virtual impactor" Elsevier BV 36 (36): 619-638, 2005
7 Poshin Lee, "Experimental Study of a Nanoparticle Virtual impactor" Springer Science and Business Media LLC 5 (5): 269-280, 2003
8 Cheng-Hsiung Huang, "Effect of gravity on particle collection efficiency of inertial impactors" Elsevier BV 32 (32): 375-387, 2001
9 Kuniaki Gotoh, "Development of annular-type virtual impactor" Elsevier BV 118 (118): 68-78, 2001
10 Po-Kai Chang, "Computational fluid dynamics study of the effects of flow and geometry parameters on a linear-slit virtual impactor for sampling and concentrating aerosols" Elsevier BV 131 : 28-40, 2019
1 Virgil A. Marple, "Virtual impactors: a theoretical study." American Chemical Society (ACS) 14 (14): 976-985, 1980
2 Haglund, J., "Two Linear Slot Nozzle Virtual Impactors for Concentration of Bioaerosols" Texas A&M University 2003
3 R. F. Hounam, "The Cascade Centripeter: A Device for Determining the Concentration and Size Distribution of Aerosols" Informa UK Limited 26 (26): 122-131, 2007
4 Hung-Ying Chen, "Numerical and experimental study of virtual impactor design and aerosol separation" Elsevier BV 94 : 43-55, 2016
5 Kuniaki Gotoh, "Improvement of the Classification Performance of a Rectangular Jet Virtual Impactor" Informa UK Limited 32 (32): 221-232, 2000
6 W. Bergman, "High air flow, low pressure drop, bio-aerosol collector using a multi-slit virtual impactor" Elsevier BV 36 (36): 619-638, 2005
7 Poshin Lee, "Experimental Study of a Nanoparticle Virtual impactor" Springer Science and Business Media LLC 5 (5): 269-280, 2003
8 Cheng-Hsiung Huang, "Effect of gravity on particle collection efficiency of inertial impactors" Elsevier BV 32 (32): 375-387, 2001
9 Kuniaki Gotoh, "Development of annular-type virtual impactor" Elsevier BV 118 (118): 68-78, 2001
10 Po-Kai Chang, "Computational fluid dynamics study of the effects of flow and geometry parameters on a linear-slit virtual impactor for sampling and concentrating aerosols" Elsevier BV 131 : 28-40, 2019
11 K.S. Lim, "Collection efficiency and particle loss of virtual impactors with different methods of increasing pressure drop" Elsevier BV 37 (37): 1188-1197, 2006
12 Virgil A. Marple, "Characteristics of laminar jet impactors" American Chemical Society (ACS) 8 (8): 648-654, 1974
13 Hinds, W. C., "Aerosol Technology: Properties, Behavior, and Measurement of Airborne Particles" Wiley 2-, 1999
14 Hungmin Chein, "A Virtual Impactor with Clean Air Core for the Generation of Aerosols with Narrow Size Distributions" Informa UK Limited 18 (18): 376-388, 1993
15 F. J. Romay, "A High-Performance Aerosol Concentrator for Biological Agent Detection" Informa UK Limited 36 (36): 217-226, 2002
16 Satyanarayanan Seshadri, "A Circumferential Slot In-Line Virtual Impactor" Informa UK Limited 42 (42): 40-49, 2008