Safety means protecting drivers, passengers and pedestrians from injury and it has become an increasingly important topic for car manufacturers. Active safety systems, such as automatic emergency braking (AEB), lane keeping, or other advanced driver assistance systems (ADAS) are developed and implemented in an increasing number of cars. Imprint: Hamamatsu Photonics Italia S.R.L. A socio unico Strada della Moia, 1 int. 6 20020 Arese (Mi) - Italia. Tel.: + 1733 Telefax: + 1741.
High energy physics (also known as particle physics) is a branch of physics that studies the nature of the elementary constituents of matter and radiation, and the interactions between them.
The name “high energy physics” originates from the natural conditions in which elementary particles are created; indeed they can be created and detected during energetic collisions of other particles, as performed in particle accelerators.
Since the 1970s, particle physicists have described the fundamental structure of matter using an elegant series of equations called the ‘Standard Model’. The model describes how everything that they observe in the universe is made from a few basic blocks called fundamental particles, governed by four forces (strong, weak, electromagnetic and gravitational).
The Standard Model has many species of elementary particles (fermions, vector and scalar bosons), which can combine to form composite particles, accounting for the hundreds of other species of particles discovered.
Over the years, it has explained many experimental results and precisely predicted a range of phenomena, such that today it is considered a well-tested physics theory. But the model only describes 4% of the known universe and questions remain, such as ‘why is the Higgs mass so light?’, ‘what is dark matter made of?’, ‘are all the forces unified into one force at high energy?’, ‘what happened to the antimatter in the early universe?’.
Hamamatsu Photonics Japan
Today, the high energy physics community is trying to answer to these questions guided by intertwined science drivers:
Winning the ‘hearts and minds’ of the pathology community
In 2017, Hamamatsu Photonics supplied the national Cancer Vanguard programme with four whole slide imaging scanners for use in the Cellular Digital Pathology (CDP) project. The aim of the project was to win the ‘Hearts and Minds’ of the pathology community by demonstrating how digital pathology, if integrated in the future, will add value both in terms of improvement of clinical outcomes and patient care.
Hamamatsu Photonics Deutschland Gmbh
Being Fully Digital: Perspective of a Dutch Academic Pathology Laboratory
The University Medical Centre Utrecht, The Netherlands, looks back upon a decade of experience in digital pathology using several slide scanners, storage system and in-house-developed image integration software leading to a digital slide archive of ~500 TB. This was a breakthrough on the road to digitization of their pathology lab.
A global health network identifying the causes of child mortaility
In 2017, Hamamatsu Photonics began working with CHAMPS to help build an innovative surveillance system to allow pathologists around the world to remotely review tissue samples across a number of CHAMPS sites.
Delivering an effective end-to-end digital histopathology laboratory
Hamamatsu Photonics K.k Driver Download Win 7
In 2017, Hamamatsu Photonics provided Pathognomics with a Nanozoomer S60 Fluorescent scanner and NDP.serve3 software in order to overcome the stereotypical challenges pathology was facing at the time such as slide degradation, storage and the ability to access slides remotely.
Virtual microscopy system for cervical cytology slides
The implementation of a virtual microscopy system allowing highly efficient automated pre-screening and archiving of biomarker-stained slides using Hamamatsu’s NanoZoomer 2.0 HT and NDP Serve.
Erasmus MC Tissue Bank, their long-term experience using NanoZoomer
Hamamatsu Photonics K.k Driver Download Windows 7
Dr. Peter Riegman, Head of the Erasmus MC Tissue Bank, was one of the first NanoZoomer customers worldwide. The 3rd ever built NanoZoomer was delivered in 2005 to the Erasmus Institute and has been used there ever since. The system now contributes to three different application areas; research (imaging facility for internal and external scientists, digital analysis), diagnostics (virtual revision slides for second opinion, internal and for other hospitals, case studies) and student education.