Microscopy

Where a 1.5-micron optical resolution is needed, for genetic research and plant analysis, crop review, wood and bark studies.

Where a 1-micron optical resolution is needed, to study the life of the oceans, to analyze samples of organisms.

Where a 1-micron optical resolution is needed, for the study and analysis of plants and plant life.

Where a 1.1-micron optical resolution is needed, for the study and classification of insects, within the biology.

Where a 1-micron optical resolution is needed, to monitoring ecosystems and factors that can directly impact the environment, such as soil conditions, pollutants, and water resources.

Where a 2-micron optical resolution is needed, for the control of environmental contamination in the field of construction and restructuring of spaces

Where a 1.1-micron optical resolution is needed, to study and identify bacteria, corresponding to the field of microbiology

Where a 1-micron optical focus is needed, for the study of chemical processes that occur within organisms

Where a 1-micron optical resolution is needed, for the development of genetically modified organisms that have an active participation in the elaboration of specific activities in the food or health sector

Where a 1.5-micron optical resolution is needed, for the analysis of pathologies that plants and the plant world can present

Where a 1.5-micron optical resolution is needed, for the development of activities with fruits and plants that contribute to the production of food products

Microsurgeries are the most complicated procedures. Obtaining and visualizing 3D information is crucial in different medical fields: neurosurgery, reconstructive, pediatric, ophthalmology, ENT, spine surgery, plastic surgery, microdentistry...

Where a 1.5-micron optical resolution is needed, analysis of pathologies in tissues and organs

Where a <1-micron resolution is needed, we can only analyze some biochemistry studies, in terms of medical microbiology analysis and biomedical engineering, and virology

Where a 1-micron optical resolution is needed, for the cultivation of fungi and microbes, to follow-up their growth and development

: Where a 1-micron optical resolution is needed, to study cell structures and diseases that can affect cells

Where a 1.5-micron optical resolution is needed, for the study of gametes, embryos, and fetuses

Where a 1-micron optical resolution is needed, for quality control of the ovule and collected sperm

Where a 1.5-micron optical resolution is needed, for the study, diagnosis of blood diseases and supervision of medical samples

Where a 1.1-micron optical resolution is needed, for the analysis of skin, capillary and nail surfaces