Abstract
Endomicroscopes have proven to be a powerful tool in deep tissue imaging, thus enabling non-invasive high resolution longitudinal optical imaging of disease model in small animals [(Kim, Lee et al. 2012)]. Existing components includes fiber bundle, miniature compound microlens and graded index (GRIN) lens. The design flexibility of GRIN lens microendoscope proved to be of an advantage when imaging a variety of visceral organs [(Kim, Lee et al. 2012)]. However, large spatial variations in the aberrations associated with GRIN lens over the full field of view impede high resolution at the extreme points in the field and depth of view [(Lee and Yun 2011)]. In this paper, we introduced a sensorless adaptive optics approach that minimizes the aberrations at these selected positions.
| Original language | English |
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| Title of host publication | Australia |
| Place of Publication | Australia |
| Publisher | Engineers Australia |
| Edition | Not reviewed |
| Publication status | Published - 2014 |
| Event | Australian Biomedical Engineering Conference ABEC 2014 - Canberra, Australia, Australia Duration: 1 Jan 2014 → … |
Conference
| Conference | Australian Biomedical Engineering Conference ABEC 2014 |
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| Country/Territory | Australia |
| Period | 1/01/14 → … |
| Other | Fri Aug 01 00:00:00 AEST 2014 |