The first photonics event about real-world business applications
Photonics – the science of light – is shaping 21st century innovations in virtually all industries. The Photonics Application Week (PHAPPS Week) is geared towards the business professional who wants to know more about the practical applications of photonics in his or her industry.
Phapps week is all about practice and applications. During the workshops, exhibitions, lectures, networking events, debates and hackathons you get first-hand experience and insight into how the fast growing field of photonics can benefit your business and industry.
PHAPPS Week focuses on the following 8 areas:
It goes without saying that photonics, being the science of light, is also spearheading innovations in the lighting industry. One example is the LED technology revolution. LEDs are quickly becoming the dominant lighting technology worldwide, consuming 20-50% less energy than other light sources.
Photonics is becoming a major player in the Agrifood industry. With its advanced optical sensing methods photonics can help farmers to determine the protein levels in wheat harvests, screen for contaminants in their planted fruits and vegetables and observe water quality to measure the health of fish stocks, to name a few examples.
More bandwidth, higher speeds and lower energy costs. Data traffic is growing at alarming rates and expected to double in size in the next three years. In the foreseeable future the current silicon chip based internet infrastructure will be unable to cope with the ever-increasing demand for bandwidth.
Industry 4.0 – also called the smart factory or the industrial internet – is seen as the next innovation phase in manufacturing. Combining data connectivity, sensor technology, speed and artificial intelligence, Industry 4.0’s mission is to create smart, highly efficient factories where autonomous machines will do almost all of the work. Yet Industry 4.0 would be nowhere without photonics.
High-precision sensing devices. The military relies heavily on the optical spectrum for sensing, mapping and identifying enemy intent over large distances. Photonics can provide the military with higher quality sensing and communications devices.
Biophotonics is a new and fast growing discipline in the health care and life sciences industry. Biophotonics studies the interaction between light and human tissue. Using multiband photonic and spectroscopic methods it is able to analyze cells and tissues by the way these living structures absorb, reflect and scatter light. This can be used to diagnose and treat diseases ranging from cancer to strokes and Alzheimer’s.
Photonics is a key enabler of the Internet of Things (IoT). For its implementation the IoT relies heavily on sensor technology. Sensors need to be small, robust and energy efficient to be embedded in machines, appliances, buildings and infrastructure and succesfully collect data over large periods of time.
Photonics for your business: System Integration, Integrated Photonics & Human Resources. Knowing what photonics can do for your business is the first step. The next step is how to implement that knowledge into practical solutions for your industry.
Network with photonics experts and business peers to learn how your company can stay ahead of the innovation curve. Exchange your market demand with professionals from the photonics industry and see how they can help you, instead of the other way around!
Host your own event
PHAPPS Week is an umbrella event. We stimulate participants to host their own events and activities.
Join forces with Photonics Applications Week and get access to global professionals both from the applications verticals (such as Health Care | IoT & Autonomous Systems | IT & Telecom | Agri & Food | Manufacturing & Industry 4.0 | Military | Consumer Electronics & Lighting) and from the Photonics industry.
Make use of the global marketing for this week, as your event is part of our international marketing campaign
Profit from high-level visitor overflow from other events, taking place during PHAPPS Week.