0000000001301503
AUTHOR
Vicente Mico
showing 37 related works from this author
Visualization3.mov
2018
Digital slightly off-axis recording (prostate cancer cells type II) from which temporal P-S and S2H2MIM algorithms are applied to retrieve QPI
2885655.mov
2017
Comparative between the white light imaging and the retrieved phase distribution from DHM
Visualization7.mov
2021
Figure 8. Live human sperm cells in free movement. First frames of a 2 seconds video movies showing: (a) recorded hologram (Visualization 1), (b) pre-filtered hologram (Visualization 2), (c-1)-(c.2) DIC in horizontal (Visualization 3) and vertical (Visualization 4) for the two focusing planes, (d.1)-(d.2) 2D (Visualization 5) and 3D (Visualization 6) quantitative positive phase contrast images for the first focusing plane, and (e.1)-(e.2) 2D (Visualization 7) and 3D (Visualization 8) quantitative negative phase contrast images for the second focusing plane. Scale bars in all images are 50 ���m and lateral gray color bar at images (d.1), (d.2), (e.1) and (e.2) represents optical phase in rad.
Visualization3.mov
2019
retrieved 3D unwrapped phase profile of the microbeads flowing into the counting chamber
Visualization4.mov
2021
Figure 8. Live human sperm cells in free movement. First frames of a 2 seconds video movies showing: (a) recorded hologram (Visualization 1), (b) pre-filtered hologram (Visualization 2), (c-1)-(c.2) DIC in horizontal (Visualization 3) and vertical (Visualization 4) for the two focusing planes, (d.1)-(d.2) 2D (Visualization 5) and 3D (Visualization 6) quantitative positive phase contrast images for the first focusing plane, and (e.1)-(e.2) 2D (Visualization 7) and 3D (Visualization 8) quantitative negative phase contrast images for the second focusing plane. Scale bars in all images are 50 ���m and lateral gray color bar at images (d.1), (d.2), (e.1) and (e.2) represents optical phase in rad.
Visualization7.mov
2021
Figure 8. Live human sperm cells in free movement. First frames of a 2 seconds video movies showing: (a) recorded hologram (Visualization 1), (b) pre-filtered hologram (Visualization 2), (c-1)-(c.2) DIC in horizontal (Visualization 3) and vertical (Visualization 4) for the two focusing planes, (d.1)-(d.2) 2D (Visualization 5) and 3D (Visualization 6) quantitative positive phase contrast images for the first focusing plane, and (e.1)-(e.2) 2D (Visualization 7) and 3D (Visualization 8) quantitative negative phase contrast images for the second focusing plane. Scale bars in all images are 50 ���m and lateral gray color bar at images (d.1), (d.2), (e.1) and (e.2) represents optical phase in rad.
Visualization4.mov
2018
Digital slightly off-axis recording from which S2H2MIM algorithm is applied to retrieve QPI
Visualization2.mov
2021
Figure 8. Live human sperm cells in free movement. First frames of a 2 seconds video movies showing: (a) recorded hologram (Visualization 1), (b) pre-filtered hologram (Visualization 2), (c-1)-(c.2) DIC in horizontal (Visualization 3) and vertical (Visualization 4) for the two focusing planes, (d.1)-(d.2) 2D (Visualization 5) and 3D (Visualization 6) quantitative positive phase contrast images for the first focusing plane, and (e.1)-(e.2) 2D (Visualization 7) and 3D (Visualization 8) quantitative negative phase contrast images for the second focusing plane. Scale bars in all images are 50 ���m and lateral gray color bar at images (d.1), (d.2), (e.1) and (e.2) represents optical phase in rad.
Visualization2.mov
2018
Digital slightly off-axis recording (prostate cancer cells type I) from which temporal P-S and S2H2MIM algorithms are applied to retrieve QPI
Visualization5.mov
2018
Retrieved phase from S2H2MIM technique for the dynamic sample
Visualization1.mov
2021
Figure 8. Live human sperm cells in free movement. First frames of a 2 seconds video movies showing: (a) recorded hologram (Visualization 1), (b) pre-filtered hologram (Visualization 2), (c-1)-(c.2) DIC in horizontal (Visualization 3) and vertical (Visualization 4) for the two focusing planes, (d.1)-(d.2) 2D (Visualization 5) and 3D (Visualization 6) quantitative positive phase contrast images for the first focusing plane, and (e.1)-(e.2) 2D (Visualization 7) and 3D (Visualization 8) quantitative negative phase contrast images for the second focusing plane. Scale bars in all images are 50 ���m and lateral gray color bar at images (d.1), (d.2), (e.1) and (e.2) represents optical phase in rad.
Visualization1.mov
2019
movie of the recorded set of single shot slightly off-axis holograms
Visualization5.mov
2021
Figure 8. Live human sperm cells in free movement. First frames of a 2 seconds video movies showing: (a) recorded hologram (Visualization 1), (b) pre-filtered hologram (Visualization 2), (c-1)-(c.2) DIC in horizontal (Visualization 3) and vertical (Visualization 4) for the two focusing planes, (d.1)-(d.2) 2D (Visualization 5) and 3D (Visualization 6) quantitative positive phase contrast images for the first focusing plane, and (e.1)-(e.2) 2D (Visualization 7) and 3D (Visualization 8) quantitative negative phase contrast images for the second focusing plane. Scale bars in all images are 50 ���m and lateral gray color bar at images (d.1), (d.2), (e.1) and (e.2) represents optical phase in rad.
Visualization3.mov
2019
retrieved 3D unwrapped phase profile of the microbeads flowing into the counting chamber
Visualization4.mov
2021
Figure 8. Live human sperm cells in free movement. First frames of a 2 seconds video movies showing: (a) recorded hologram (Visualization 1), (b) pre-filtered hologram (Visualization 2), (c-1)-(c.2) DIC in horizontal (Visualization 3) and vertical (Visualization 4) for the two focusing planes, (d.1)-(d.2) 2D (Visualization 5) and 3D (Visualization 6) quantitative positive phase contrast images for the first focusing plane, and (e.1)-(e.2) 2D (Visualization 7) and 3D (Visualization 8) quantitative negative phase contrast images for the second focusing plane. Scale bars in all images are 50 ���m and lateral gray color bar at images (d.1), (d.2), (e.1) and (e.2) represents optical phase in rad.
Visualization3.mov
2018
Digital slightly off-axis recording (prostate cancer cells type II) from which temporal P-S and S2H2MIM algorithms are applied to retrieve QPI
Visualization3.mov
2021
Figure 8. Live human sperm cells in free movement. First frames of a 2 seconds video movies showing: (a) recorded hologram (Visualization 1), (b) pre-filtered hologram (Visualization 2), (c-1)-(c.2) DIC in horizontal (Visualization 3) and vertical (Visualization 4) for the two focusing planes, (d.1)-(d.2) 2D (Visualization 5) and 3D (Visualization 6) quantitative positive phase contrast images for the first focusing plane, and (e.1)-(e.2) 2D (Visualization 7) and 3D (Visualization 8) quantitative negative phase contrast images for the second focusing plane. Scale bars in all images are 50 ���m and lateral gray color bar at images (d.1), (d.2), (e.1) and (e.2) represents optical phase in rad.
Visualization1.mov
2021
Figure 8. Live human sperm cells in free movement. First frames of a 2 seconds video movies showing: (a) recorded hologram (Visualization 1), (b) pre-filtered hologram (Visualization 2), (c-1)-(c.2) DIC in horizontal (Visualization 3) and vertical (Visualization 4) for the two focusing planes, (d.1)-(d.2) 2D (Visualization 5) and 3D (Visualization 6) quantitative positive phase contrast images for the first focusing plane, and (e.1)-(e.2) 2D (Visualization 7) and 3D (Visualization 8) quantitative negative phase contrast images for the second focusing plane. Scale bars in all images are 50 ���m and lateral gray color bar at images (d.1), (d.2), (e.1) and (e.2) represents optical phase in rad.
Visualization6.mov
2021
Figure 8. Live human sperm cells in free movement. First frames of a 2 seconds video movies showing: (a) recorded hologram (Visualization 1), (b) pre-filtered hologram (Visualization 2), (c-1)-(c.2) DIC in horizontal (Visualization 3) and vertical (Visualization 4) for the two focusing planes, (d.1)-(d.2) 2D (Visualization 5) and 3D (Visualization 6) quantitative positive phase contrast images for the first focusing plane, and (e.1)-(e.2) 2D (Visualization 7) and 3D (Visualization 8) quantitative negative phase contrast images for the second focusing plane. Scale bars in all images are 50 ���m and lateral gray color bar at images (d.1), (d.2), (e.1) and (e.2) represents optical phase in rad.
Visualization5.mov
2021
Figure 8. Live human sperm cells in free movement. First frames of a 2 seconds video movies showing: (a) recorded hologram (Visualization 1), (b) pre-filtered hologram (Visualization 2), (c-1)-(c.2) DIC in horizontal (Visualization 3) and vertical (Visualization 4) for the two focusing planes, (d.1)-(d.2) 2D (Visualization 5) and 3D (Visualization 6) quantitative positive phase contrast images for the first focusing plane, and (e.1)-(e.2) 2D (Visualization 7) and 3D (Visualization 8) quantitative negative phase contrast images for the second focusing plane. Scale bars in all images are 50 ���m and lateral gray color bar at images (d.1), (d.2), (e.1) and (e.2) represents optical phase in rad.
Visualization3.mov
2021
Figure 8. Live human sperm cells in free movement. First frames of a 2 seconds video movies showing: (a) recorded hologram (Visualization 1), (b) pre-filtered hologram (Visualization 2), (c-1)-(c.2) DIC in horizontal (Visualization 3) and vertical (Visualization 4) for the two focusing planes, (d.1)-(d.2) 2D (Visualization 5) and 3D (Visualization 6) quantitative positive phase contrast images for the first focusing plane, and (e.1)-(e.2) 2D (Visualization 7) and 3D (Visualization 8) quantitative negative phase contrast images for the second focusing plane. Scale bars in all images are 50 ���m and lateral gray color bar at images (d.1), (d.2), (e.1) and (e.2) represents optical phase in rad.
Visualization5.mov
2018
Retrieved phase from S2H2MIM technique for the dynamic sample
Visualization4.mov
2018
Digital slightly off-axis recording from which S2H2MIM algorithm is applied to retrieve QPI
Visualization2.mov
2019
movie representing the subtraction hologram derived from Eq. 3 in the paper
Visualization1.mov
2018
Digital slightly off-axis recording (static micro bead) from which temporal P-S and S2H2MIM algorithms are applied to retrieve QPI
Visualization8.mov
2021
Figure 8. Live human sperm cells in free movement. First frames of a 2 seconds video movies showing: (a) recorded hologram (Visualization 1), (b) pre-filtered hologram (Visualization 2), (c-1)-(c.2) DIC in horizontal (Visualization 3) and vertical (Visualization 4) for the two focusing planes, (d.1)-(d.2) 2D (Visualization 5) and 3D (Visualization 6) quantitative positive phase contrast images for the first focusing plane, and (e.1)-(e.2) 2D (Visualization 7) and 3D (Visualization 8) quantitative negative phase contrast images for the second focusing plane. Scale bars in all images are 50 ���m and lateral gray color bar at images (d.1), (d.2), (e.1) and (e.2) represents optical phase in rad.
Visualization6.mov
2021
Figure 8. Live human sperm cells in free movement. First frames of a 2 seconds video movies showing: (a) recorded hologram (Visualization 1), (b) pre-filtered hologram (Visualization 2), (c-1)-(c.2) DIC in horizontal (Visualization 3) and vertical (Visualization 4) for the two focusing planes, (d.1)-(d.2) 2D (Visualization 5) and 3D (Visualization 6) quantitative positive phase contrast images for the first focusing plane, and (e.1)-(e.2) 2D (Visualization 7) and 3D (Visualization 8) quantitative negative phase contrast images for the second focusing plane. Scale bars in all images are 50 ���m and lateral gray color bar at images (d.1), (d.2), (e.1) and (e.2) represents optical phase in rad.
2885653.mov
2017
2D wrapped phase distribution retrieved from DHM
Visualization1.mov
2018
Digital slightly off-axis recording (static micro bead) from which temporal P-S and S2H2MIM algorithms are applied to retrieve QPI
Visualization8.mov
2021
Figure 8. Live human sperm cells in free movement. First frames of a 2 seconds video movies showing: (a) recorded hologram (Visualization 1), (b) pre-filtered hologram (Visualization 2), (c-1)-(c.2) DIC in horizontal (Visualization 3) and vertical (Visualization 4) for the two focusing planes, (d.1)-(d.2) 2D (Visualization 5) and 3D (Visualization 6) quantitative positive phase contrast images for the first focusing plane, and (e.1)-(e.2) 2D (Visualization 7) and 3D (Visualization 8) quantitative negative phase contrast images for the second focusing plane. Scale bars in all images are 50 ���m and lateral gray color bar at images (d.1), (d.2), (e.1) and (e.2) represents optical phase in rad.
2885654.mov
2017
3D unwrapped phase distribution retrieved from DHM
Visualization2.mov
2019
movie representing the subtraction hologram derived from Eq. 3 in the paper
2885655.mov
2017
Comparative between the white light imaging and the retrieved phase distribution from DHM
2885654.mov
2017
3D unwrapped phase distribution retrieved from DHM
Visualization2.mov
2018
Digital slightly off-axis recording (prostate cancer cells type I) from which temporal P-S and S2H2MIM algorithms are applied to retrieve QPI
Visualization1.mov
2019
movie of the recorded set of single shot slightly off-axis holograms
2885653.mov
2017
2D wrapped phase distribution retrieved from DHM