Difference between revisions of "Team:Cambridge-JIC/Notebook"

Line 51: Line 51:
 
graph.commit('optics', 'Optics', $('<div>16 July 2015: Got tips on designing an Epifluorescence optical pathway from Dr Richard Bowman.</div>'));
 
graph.commit('optics', 'Optics', $('<div>16 July 2015: Got tips on designing an Epifluorescence optical pathway from Dr Richard Bowman.</div>'));
 
graph.commit('design', 'Hardware Design', $('<div>17 July 2015: Printed the new upright stage, with x- and y-axis translation systems. Also made some lens holders for our optics bench. Simon loves printing.</div><div class="team"><div class="face" style="background-image: url(//2015.igem.org/wiki/images/b/b1/CamJIC-Notebook-Optics3.jpg)"><div class="blur"></div><div class="profile"><h3>Optics</h3><p>Some filters arrived today. These are typically used for photography - put in front of the camera flash. But we are trying to find out (using a spectrophotometer) whether they could be good enough to incorporate in a fluorescent microscope. Collecting filter specs with a spectrophotometer and plotting in MatLab.</p></div></div><div class="face" style="background-image: url(//2015.igem.org/wiki/images/6/6f/CamJIC-Notebook-Optics1.jpg)"><div class="blur"></div><div class="profile"><h3>Optics & Hardware</h3><p>Simon testing his freshly printed lens holder. We came up with the idea to use a magnetic whiteboard as a substitute of an optical table worth thousands of pounds. It is all about the open source cheap stuff now!</p></div></div><div class="face" style="background-image: url(//2015.igem.org/wiki/images/8/8d/CamJIC-Notebook-Optics2.jpg)"><div class="blur"></div><div class="profile"><h3>Optics</h3><p>The resolution which can be achieved with a single lens with a short focal distance is amazing: the individual plastic fibres of the 3D printed parts are easily visible.</p></div></div></div>'));
 
graph.commit('design', 'Hardware Design', $('<div>17 July 2015: Printed the new upright stage, with x- and y-axis translation systems. Also made some lens holders for our optics bench. Simon loves printing.</div><div class="team"><div class="face" style="background-image: url(//2015.igem.org/wiki/images/b/b1/CamJIC-Notebook-Optics3.jpg)"><div class="blur"></div><div class="profile"><h3>Optics</h3><p>Some filters arrived today. These are typically used for photography - put in front of the camera flash. But we are trying to find out (using a spectrophotometer) whether they could be good enough to incorporate in a fluorescent microscope. Collecting filter specs with a spectrophotometer and plotting in MatLab.</p></div></div><div class="face" style="background-image: url(//2015.igem.org/wiki/images/6/6f/CamJIC-Notebook-Optics1.jpg)"><div class="blur"></div><div class="profile"><h3>Optics & Hardware</h3><p>Simon testing his freshly printed lens holder. We came up with the idea to use a magnetic whiteboard as a substitute of an optical table worth thousands of pounds. It is all about the open source cheap stuff now!</p></div></div><div class="face" style="background-image: url(//2015.igem.org/wiki/images/8/8d/CamJIC-Notebook-Optics2.jpg)"><div class="blur"></div><div class="profile"><h3>Optics</h3><p>The resolution which can be achieved with a single lens with a short focal distance is amazing: the individual plastic fibres of the 3D printed parts are easily visible.</p></div></div></div>'));
graph.commit('optics', 'Optics', $('<div>20 July 2015: First prototype working. Very cheap, very poor quality… but we are working on it. The inverted-lens Raspberry Pi Cam definitely gives decent resolution, with its NA of about 0.15. Excited to see some cheek epidermis cells. Or maybe something else… Anyways excited!!!</div> <div class="team"><div class="face" style="background-image: url(//2015.igem.org/wiki/images/4/46/CamJIC-Notebook-Optics4.jpg)"><div class="blur"></div><div class="profile"><h3>Microscope</h3><p>The first image obtained with our microscope. Featuring a sample of epidermis from one of our team members. Thank you, Atti.</p></div></div> <div class="face" style="background-image: url(//2015.igem.org/wiki/images/e/e9/CamJIC-Notebook-Optics5.jpg)"><div class="blur"></div><div class="profile"><h3>Microscope</h3><p>The first prototype in its whole glory.</p></div></div></div>'));
+
graph.commit('optics', 'Optics', $('<div>20 July 2015: First prototype working. Very cheap, very poor quality… but we are working on it. The inverted-lens Raspberry Pi Cam definitely gives decent resolution, with its NA of about 0.15. Excited to see some cheek epidermis cells. Or maybe something else… Anyways excited!!!</div> <div class="team"><div class="face" style="background-image: url(//2015.igem.org/wiki/images/4/46/CamJIC-Notebook-Optics4.jpg)"><div class="blur"></div><div class="profile"><h3>Microscope</h3><p>The first image obtained with our microscope. Featuring a sample of epidermis from one of our team members. Thank you, Atti.</p></div></div> <div class="face" style="background-image: url(//2015.igem.org/wiki/images/e/e9/CamJIC-Notebook-Optics5.jpg)"><div class="blur"></div><div class="profile"><h3>Microscope</h3><p>The first prototype in its whole glory.</p></div></div><div class="face" style="background-image: url(//2015.igem.org/wiki/images/3/3b/CamJIC-Notebook-Software1.jpg)"><div class="blur"></div><div class="profile"><h3>Software</h3><p>Face recognition working! Cell recognition coming soon.</p></div></div></div>'));
 
graph.commit('sw', 'Software', $('<div>20 July 2015: Playing around with some face recognition software. If we can digitally recognise faces, we could possibly also recognise cells, right?</div>'));
 
graph.commit('sw', 'Software', $('<div>20 July 2015: Playing around with some face recognition software. If we can digitally recognise faces, we could possibly also recognise cells, right?</div>'));
 
graph.commit('design', 'Hardware Design', $('<div>20 July 2015: Currently designing and 3D printing some more holders for the optical bench setup. Just found out that OpenSCAD is not as easy to manipulate with as it seems. Aiming to be able to construct a proper model of the microscope within the next few days.</div>'));
 
graph.commit('design', 'Hardware Design', $('<div>20 July 2015: Currently designing and 3D printing some more holders for the optical bench setup. Just found out that OpenSCAD is not as easy to manipulate with as it seems. Aiming to be able to construct a proper model of the microscope within the next few days.</div>'));

Revision as of 15:49, 20 July 2015

Notebook