I took some photos a few years ago when doing research in Oxford. I submitted them to a photo competition which unfortunately I didn't win. However, they are now being used in a new blog aimed at young non-sciencey types to raise awareness and enthusiasm for science. The following is a copy and paste from the blog, http://bbsrc.tumblr.com, the post from the 3 March 2014.
Lasers light the way to new drugs
Look beyond the pretty lights and lasers and you will see a Total Internal Reflection Fluorescence Array; a special type of model microscope that allows for multiple drug tests to be run simultaneously.
The test works by putting a drug and marker proteins inside an artificial cell, and then measures the effect the drug has on the speed that ions move into the cell.
This equipment, although only a concept device, could be key to new drug developments.
Research performed under Mark Wallace: http://wallace.chem.ox.ac.uk.
Images taken by BBSRC-funded James Berridge at Oxford University.
For more BBSRC-funded research go to:http://www.bbsrc.ac.uk/home/home.aspx
Or for some images looking down a light microscope go to:http://tmblr.co/ZtJ7bq16-Vzls.
Recently, I've been playing with 2nd shutter sync. This simply means the camera flashes at the end of an exposure instead of at the beginning. This lends itself perfectly for capturing motion on longer exposures then effectively freezing the subject at its last position.
A few weeks ago I entered an ICAEW student photo competition:
I decided to use this technique to make it look like I was writing quickly while working on a set of accounts. Unfortunately I didn't win, I lost to a (admittedly well shot) picture of three meerkats titled Safety in Numbers. Regardless, I'm pleased with my entry:
While out of the country, relaxing in Spain, I continued my experimentation with 2nd shutter sync. This time instead of capturing the final position of a movement as above I tried something a little different...
Playing in Spain
I've seen loads of photos taken where people use a light and a long exposure to create patterns or words in the image. I've even done it myself:
The problem with these photos is you don't see who is behind the pattern or the text. In Spain, I combined this interesting type of photo with the 2nd shutter sync to capture the people behind the photo, in the same exposure. Obviously this can be done with photoshop and I have compared the final result for the two methods below.
All of the following are single exposure images.
Due the limited creativity of those involved (myself included) there were no interesting pictures, only names and usernames to be seen, but at least everyone could introduce them in their own way! Apart from the Bez image (which has had the light colour altered) they have only had very basic adjustments made, such as brightness and colour balance etc
These look like they could have been made using composite imagery. As promised, I tried that too:
This is made up of 4 images. Due to the significantly shorter exposure times the body is more clearly visible in the four sections, "person", "Jake", "#" and "11". While there are benefits to creating the image in this way (such as easy retakes of particular sections), the finished product feels less authentic.
Another bank holiday, another excuse to break out the geeky camera equipment. This time it's the panoramic tripod head and the new IR filter.
Navigate the three panoramic images above using the highlighted hotspots. There is a faux colour IR shot of the garden, a night edit version of the same photo and a faux HDR (single raw image) of a kitchen.
Find the actual photos over at Flickr, here.
I recently bought an IR filter in order to experiment with IR photography. The Green.L 760nm IR filter from amazon marketplace. Today with the sun out, I decided to give it a go.
What makes IR photography different?
By blocking visible light with the lens filter, you allow the camera to pick up normally invisible Infra-red light. This 'new' light makes grass and leaves show up bright white explaining the snowy appearance of the photos. As a result of blocking all the blue, green and almost all of the red light, the photos are technically monochromatic (one hue). The images appear red and white directly from the camera.
With channel mixing you can swap the red and blue making the images look a little more natural. Alternatively you can go down the faux colour route, making up your own colours for everything!
I created some Adobe Lightroom presets for the two faux colour shots, Lightroom IR Presets.
Gallery also viewable on Flickr.