decide game:
quantum technologies
Group 1 – Participant 3
Story cards
Read all the cards from this category, choose the one that looks more interesting to you and explain it to the rest of the group.
pere puig
Story Card 7
I am a partner in a small family business that makes furniture. A few years ago, I had solar panels fitted on the roof of the unit we use as a factory and warehouse. At that time, I found out a lot of information about it and was surprised to discover that it is quantum physics that explains the rules that underpin their operation!
Who would have thought quantum technology would help me save money as I helped save the planet?
stefan schultz
Story Card 8
I am very excited: I have just won a scholarship to take the Master’s Degree in Quantum Science and Technologies in Barcelona.
In addition to learning more about the fascinating world of quantum physics, I will lay the foundation for my career in an expanding field that promises to shape the technologies of the future.
And that is not all: the scholarship will allow me to experience a new country and come into contact with a different culture.
núria navas
Story Card 11
I am a physics teacher at a secondary school. I am concerned about people's lack of knowledge about scientific matters. There are more and more pseudo-scientific scams that use technical names and take advantage of misinformation and lack of critical spirit, which do nothing but take money from people. No, there is such thing as a quantum doctor! Science is not magic.
I am trying to get my students to understand scientific concepts and analyze with a critical attitude the information they receive in their daily life.
info cards
Read all cards from this category, choose the two that look more interesting and explain them to the rest of the group.
superposiTION
Info Card 1
The speed of a tennis ball is the result of the superposition of a horizontal and a vertical component.
With quantum particles, we can create even more surprising superpositions, such as an atom in an excited and unexcited state at the same time, or a particle that goes along two paths at once.
Applications: computing (greatly speeding up how long it takes to solve some problems); cryptography (allowing ultra-secure communications).
Randomness
Info Card 5
The results of a measurement are probabilistic: we have no way of knowing what will happen when we measure a single particle, but we can accurately calculate the probability of each possible result.
Applications: random numbers. In fact, this is the only way to obtain completely random numbers. Random numbers have applications in cryptography, simulations, gambling, etc.
Quside, an ICFO spin-off, has invented a random number generator based on quantum physics.
Improving our perception of the world
Info Card 17
The small changes that light undergoes when it crosses spaces and materials can help us measure many features of the world around us, such as distance and temperature, with high precision.
ICFO is working to produce increasingly resistant sensors to measure temperature and electrical fields in extreme conditions, such as a fire.
We are also researching how to build ultra-sensitive sensors thanks to the properties of quantum physics, such as scales that can detect the presence of just one atom with carbon nanotubes and cold atoms that could measure the small magnetic fields generated by our brains.
Photo: Prototype of an ultra-sensitive magnetic field quantum sensor.
quantum dots
Info Card 19
Quantum dots are nanoparticles that have the interesting property of emitting and absorbing specific colours of light, which can be adjusted by changing the size and composition of the dot.
Applications: macromolecular markers, microscopy, computing, improving the efficiency of photovoltaic cells and LEDs, etc.
There are already LED televisions that work with quantum dots.
thinking cards
Read all the cards from this category, choose the one that looks more interesting to you and explain it to the rest of the group.
There are more pressing problems
Thinking Card 8
Science and technology have improved and are continuing to improve our quality of life. However, many pressing and important challenges remain that need solutions that research cannot provide directly and quickly. Perhaps we should focus our efforts on reducing social inequalities, unemployment, hunger and poverty. Or can science and technology also help with these aspects?
Basic or applied research?
Thinking Card 9
It is not easy to predict when a particular technology will be available to society: for example, nuclear fusion has appeared to be close to solving the problem of energy production for years, but there are always unforeseen technical problems that push it further away. On the other hand, some technologies that are now all around us, such as lasers, arose from curiosity about fundamental questions, such as the interaction between photons and matter, without a specific application in mind.
How do we choose the fields of research that will provide the greatest benefits?
DECISIon
The time and resources available to solve the major problems affecting society are limited. Imagine being part of the committee that has to decide how to invest money to develop quantum technologies at European level over the next few years: since you know that that quantum technologies could benefit society in many different ways, how many resources would you commit to developing them?
This is not an individual decision: each group must reach a unanimous conclusion by arguing properly and rationally based on the facts you have learned so far. There is no right or wrong answer. Like many things in life, it depends on your point of view, your priorities, etc.
quantum technologies are the future
Option 1
Their applications in all fields of human activity will radically change our lives, just as electricity and electronics once did. We must invest as much as we can in their development, to make them commercially viable as soon as possible.
quantum technologies are still too far away
Opció 2
We should not be fooled by illusory promises. We have gone very far with traditional technologies and we still have a long way to go: we should keep the current investment in quantum technologies at the same level. Let scientists do their work and continue to research, focusing on maintaining and improving the technologies that we already have.
we should prioritise
Option 3
Research into quantum physics and its applications is positive, but we currently have other far more important and pressing issues, such as hunger, poverty, wars and terrorism. Let us maintain research, but invest our money to find solutions to the major problems our society has today.
we should boost basic science
Option 4
Quantum technologies are very promising, but if they are to be effective, they require solid knowledge of their foundations. We should invest in fundamental research: a better understanding of the foundations of quantum physics will naturally lead to the development of its applications.