GLOBAL WIDEFIELD MICROSCOPE MARKET 

INTRODUCTION

 A wide area of the object is illuminated and imaged without the need for scanning in wide-field multiphoton microscopy, an optical non-linear imaging technique designed for ultrafast imaging.

Widefield microscopes are great for creating 2D images of specimens because they can simultaneously capture the entire field. With quick temporal resolution, the quantity and localization of particular fluorescent molecules can be observed.

Real-time measurements can be taken of processes occurring in living cells, such as neuronal signalling.Ultra wide field imaging (UWFI) and wide field imaging (WFI) are becoming more and more well-liked.

WFI stands for imaging with a field of view greater than 50 degrees. As with optos, UWFI systems can image up to 200 degrees. They can successfully image more than 80% of the retinal surface area.

When using widefield fluorescence microscopy, the entire sample is illuminated with light of a particular wavelength, igniting the fluorescent molecules present. With the aid of eyepieces or a camera, the emitted light is seen.

Fluorescence microscopy is used to identify particular proteins, molecules, or cellular structures. Almost any component of living, fixed cells or tissues can be "stained" and subsequently specifically imaged using this method, up to the highest magnifications.

Widefield fluorescence microscopy is frequently used to analyse immunofluorescence assays. It is also possible to visualise multiple structures concurrently, which causes the resulting image to have a variety of pseudocolors. 

GLOBAL WIDEFIELD MICROSCOPE MARKET SIZE AND FORECAST

Global widefield Microscope Market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.

NEW PRODUCT LAUNCH

New Mica imaging platform from Leica Microsystems brings previously inaccessible experiments to all life science, researchers. sample-protecting incubator environment is combined with true simultaneous four-label widefield, confocal resolution, and AI-supported analysis in the new Leica Microsystems Mica imaging system.

GSDIM technology is the foundation of the Leica SR GSD (Ground State Depletion followed by Individual Molecule return; exclusively licenced from MPI Goettingen, based on the work of Professor Stefan Hell).

During its testing phase, it has already produced astounding results in scientific experiments. The GSDIM method's ability to be used with conventional fluorescence labels frequently used in fluorescence imaging applications is one of its main benefits. The highest resolution currently possible with a light microscope, GSDIM almost matches an electron microscope in terms of resolution. 

COMPANY PROFILE

• Leica
• Lab bulletin
• Ibidi
• LABOMED
• Olympus

THIS REPORT WILL ANSWER FOLLOWING QUESTIONS

1. How manywidefield Microscopeare manufactured per annum globally? Who are the sub-component suppliers in different regions?
2. Cost breakup of a Globalwidefield Microscopeand key vendor selection criteria
3. Where is thewidefield Microscopemanufactured? What is the average margin per unit?
4. Market share of Globalwidefield Microscopemarket manufacturers and their upcoming products
5. Cost advantage for OEMs who manufacture Globalwidefield Microscopein-house
6. key predictions for next 5 years in Globalwidefield Microscopemarket
7. Average B-2-Bwidefield Microscopemarket price in all segments
8. Latest trends inwidefield Microscopemarket, by every market segment
9. The market size (both volume and value) of thewidefield Microscopemarket in 2023-2030 and every year in between?
10. Production breakup ofwidefield Microscopemarket, by suppliers and their OEM relationship