Jack Haworth
Case Study: Jack Haworth
“Once I actually understood engineering … I thought it’s like a perfect mix of practicality and theory. What you are learning, you can see it applied to real life applications.”
A different route into engineering
Jack always wanted to become electrician, an engineer and to have a degree. His route into engineering is very different than the majority of other graduates and he is passionate about raising awareness of different routes into engineering.
During 6th form Jack studied English literature, history and business however and soon realised that that wasn’t working for him. As soon as he finished school he applied for an electrical engineering apprenticeship at TSP Engineering in Workington.
Jack did a Higher National Certificate (HNC) and a Higher National Diploma (HND) in electrical and electronic engineering, and then a degree in electrical plant engineering.
“I wanted to get involved in this podcast and try to inspire people and make people more aware of the different routes that you can take to become an engineer and the different careers within engineering.”
From this point onwards he applied to the Sellafield graduate scheme where according to him opportunities were endless.
“It’s probably like the best thing I could have done because I’ve worked on the tools and I’ve worked on the things that other people have designed, and then you kind of like get an idea of, say, like how things could be done better.”
His engineering apprenticeship made him observant and having hands-on experience of equipment allows him to think about how to make components more accessible, easier to work on or fix. With 8 years of hands-on experience Jack hopes that he will soon become a chartered engineer.
Robots on Extreme environments
Jack is currently working for the Robotics and Extreme Environments Lab run by the University of Manchester in collaboration with Sellafield. He collaborates with his colleagues designing robots that can work in extreme environments that are dangerous for humans. He is particular proud of two of these robots: Carma and Mirrax.
Carma has been designed to inspect outdoors areas for radiation and its currently being fitted with a GPS sensor to map the environment around. This is based on a LIDAR sensor as Jack explains:
“A LIDAR sensor is method for measuring distances by illuminating the target with laser light and measuring their reflection with the sensor and so the time differences in the returned laser allows to build up a map of the environment… so this this robot is deployed around legacy areas of Sellafield to be able to declassify them so that you know that the clear of radiation”.
Mirrax is a 3 legged autonomous robot which runs on a little roller wheels and it only 150 mm wide so it can squeeze in small areas of nuclear cells which are highly radioactive. Mirax also used LIDAR sensors to map its surroundings:
“It’s got a middle arm that lifts up and on this arm is a LIDAR sensor and a gamma radiation sensor and this can also tilt, so this allows the 2D Lidar to build up a 3D map of the environment so that we can work towards knowing exactly what’s in there and help to navigate the robot around the cell… It’s also picking up the radiation hotspots within the cell to then end with, uh, hopefully decommissioning the cell after this.”
To help develop these robots, Jack learned 3D-CAD and electronics:
There are a lot of electronics and stuff that needs to get in there, so I’ve been designing and 3D printing components to hold things in place and building stuff up so that the robot is more robust.
Working on a nuclear site
Jack works at Sellafield which is one of the few places in the country that handles nuclear waste. The general public still has a very apprehensive perception of nuclear energy and the safety of nuclear sites. According to Jack once you learn the science and you understand the safety protocols you actually feel safe.
“If you follow the rules, which there is a lot of rules and there’s a lot of safety in place, which sometimes people could say it’s maybe a bit over the top, but you can understand why it’s there and the purpose of it. Sometimes a lot more difficult to actually get things done, but I really enjoy it!”
Engineering skillsets and following dreams
Jack believes that in addition to having hands-on experience of equipment, engineers should be good team players as no one knows everything:
“Always look at how you can make things better or better ways of doing stuff… I think you’ve got to be good at solving problems and sometimes to solve problems, you’ve got a be creative. You’ve got to be able to think outside the box, but also be able to apply engineering theories to your problems”
Jack is also a strong advocate about different routes into engineering such as apprenticeships.
“When I started my apprenticeship, there was people starting it who were 24 years old. You’re never too late to change and do what you want to do, like what’s going to make you happy… People put a lot of pressure on themselves thinking like, oh, I don’t know what I want to do. I don’t know what I’m supposed to do or what people expect me to do. Try and be open to all things like I was.”
Position
Electrical Engineer at Sellafield
Key Attributes
collaborative, observant, passionate
Qualifications
A-Levels, Apprenticeship
Employer
Larissa Suzuki
Case Study: Larissa Suzuki
“I think there are lot of transferability in skills from one area to another, and that is why I find engineering a very exciting career because we can be curious and inventive at all times.”
Music and engineering
Larissa grew up in São Paulo in Brazil, and since the age of 5, she knew that she wanted to be an engineer. She recalls that her family and friends had to stop giving her electronics as gifts (like radios and TV’s) because she would pull them apart to understand how they worked.
Engineering was very natural path to me. I did a degree in computer science because I wanted to do engineering I could control data and get things to do what I wanted them to do.
Her parents were not keen in having a female engineer in the house and encouraged her to study music instead. Determined to go to university, Larissa had to work in industry all the time to help fund her studies. She did a degree in Electrical Engineering where she was the only woman in her class.
Designing smarter cities
Larissa believes that being collaborative and sharing data will enhance the quality of life of people living in smart cities.
When we design cities we need to make sure that we don’t design them to fit just a small proportion of the population we have to build a city that mirrors society. If we have a lot of senior citizens living in a city we have to create technology that is understandable by them and we also need to cater services to those people. A one size fits all approach will never work!
According to her a smart city is as city where citizens are provided with everything they need at the time they need and where they need it: a good and fair cost transport system, affordable housing, affordable energy and water supply and fair access to internet and mobile signal amongst others.
To understand how important sharing data is Larissa talks about the current pandemic and how hospitals in London should invest in sharing data regarding the number of available beds for covid patients.
If you have data and that data is processed by machines in real time, we can predict the likelihood of having beds available in hospital x at time y and then we can better plan for your citizens.
Diversity matters
Larissa believes that more needs doing to fight stereotypes and increase the diversity of people working in computer science and engineering:
We need to demystify that idea that computer science is a very isolated career. This is not true! You have to be very collaborative… Engineering is a great career option for any type of person. If you can’t see blood you can still help to cure cancer!
She also mentions the amazing women who contributed to advancements in computer science and are often “erased from history”:
Things like Bluetooth, Wifi, AI and programming have been strongly influenced by the work of Ada Lovelace . The first person to create a compiler that would allow us to use natural language to programme a computer was also a female pioneer.
There are several benefits of having a diverse team working collaboratively: creating better products with a better fit. Self-regulating people who think from different perspectives and different angles so a team can scrutinise a product and make it better for the user. Diversity is very important in fields such Artificial Intelligence and Machine Learning.
I truly believe that we are inventors, we create and invent things and that is one of the hardest jobs that we have: to have the creativity to create something that has never been; is a very powerful statement!
Recognitions and prizes
Larissa is neuro divergent and over the past few years has won several Recognitions and awards linked with her career. She was awarded the Engineer of the Year 2021 award by the Engineering Talents Awards and was a finalist for the Women in Science and Technology WISE Awards in 2018. You can find more about Larissa here.
Manjot Chana
Case Study: Manjot Chana
“I’ve always had an massive affinity for solving problems, for me life itself is a series of micro problems which need to be solved or optimised”
From robots to degree apprenticeship
Manjot grew up in Wolverhampton. As a young child he remembers being a big fan of Power rangers and playing with LEGO. He was always curious about how the robots fitted together. After his A-levels he decided to “break the norm” and applied for a degree apprenticeship at Jaguar Landrover instead of going to university.
‘You get paid and you get your degree, and I thought this is incredible! […] I need to start money ASAP to help out the family as oppose to purely the knowledge and the experience of a university degree.’
It took him 6 years to complete his apprenticeship. During that time Manjot, gained a lot of “hands on” skills which allow him to progress in his career.
Changing lives and help tackle climate change
Manjot works at H2GO Power, a company that is developing technology to capture and store surplus hydrogen generated from renewable energy sources. He joined this company as he wanted to use his engineering skills to help tackle climate change, and improve the quality of life of millions of people worldwide who don’t have access to a reliably source of energy.
As a senior integration system engineer Manjot needs to be logical as he makes different parts of systems to work well together:
‘I ensure the subsystems are communicating together: the data is flowing, the wiring is correct, the software is correct. As an integration engineer you need to know a lot about everything but only a shallow amount.’
The data never lies
Manjot is also extremely organised at work as he enjoys “closing loops” of pending tasks. He also believes that the data from experiments never lies and that it has a story to tell us. We just need to make sense of it! In reality, Manjot is obsessed with collecting data from life in general.
Break the norm and follow your dreams
Outside of work Manjot loves to read. If he could get a superpower it would be the ability to read and retain information faster. He also encourages others to take chances, to stay truth to themselves and to follow their dreams.
Joshua Macabuag
Case Study: Joshua Macabuag
“You are always learning and you are always challenging your levels of knowledge … engineering is so intertwined with the people that you are working with and the communities that you are working with …”
Discovering engineering
When Joshua was growing up he always had a desire to be useful, to help others. He enjoyed maths and physics and was the first one on his family to go past their GCSEs. Like many young people he was not sure what step to take next but he decided to try university.
“I was felling my own way, coming from a generation where we could go from GCSE to A-Levels to University, that was a bit of an experiment. I really enjoyed university!”
He doesn’t recall having many role models when growing up except his father who was a car mechanics. The practical approach and working on physical projects which naturally happens in car mechanics quickly became engrained on him.
According to Joshua, one of the key drivers of engineering is that final physical output:
“That is a real life impact that is what kept me in engineering, engineering for me is having a real world impact”
He also volunteered for a year in rural South Africa. That year was an eye-opener for him as he saw how engineering is crucial to improve the lives of many people by building roads, buildings and other infrastructures.
Disaster risk Engineering
Joshua is a disaster risk engineer, meaning that he uses mathematical models to try to predict how often natural disasters such as hurricanes or tsunamis can occur and how likely these natural phenomena are to damage buildings and affect local populations.
It about making informed decisions in case of uncertainty: you can’t get information about every single building a city so you have to make assumptions and make decisions based on those assumptions.
The damage that earthquakes and hurricanes do to buildings is very different as Joshua explains:
During an earthquake, as the ground shakes, the building also wants to shake due to its inertia. And the movement of the building and its own weight is what causes the force that then breaks the structure and collapses.
A hurricane is very different. It has very strong winds so you have an external force applying to your building and that force will try to lift up the roof, for example. As the wind passes through your structure it causes an uplift force. The air can get quickly trapped inside of the building which creates a pressurisation that leads to an outwards force that can be strong enough to lift the entire roof or tiles.
Joshua runs his models for the world bank which uses his predictions to lend money to countries to improve poverty.
Finding a way or make one
Josh is also a search and rescue engineer for SARAID which is a group of volunteers that helps finding people trapped in collapsed buildings. Their moto is “Finding a way or make one”. Josh needs to be observant and resilient as this is a difficult task.
If there is anybody trapped inside of the collapsed building you’ll have minutes to decide the best way to access and extricate those people. You don’t really have anything other than what you can see with your eyes.
So for Josh is all about get as much information as possible:
The first thoughts are is there any big beams inside and where are they likely to be and what did that building looked like originally.
In a way Josh assessing the past present and future of the structure: what is made of, where did it moved to and what would happen next (if it fails further).
Once these questions are answered the next step is making sure that the structure is temporarily stable, lifting an shifting of heavy items, breaching and breaking through slabs or walls and carrying out first aid to stabilise any casualties.
In rescue there not going to be any time to run computer models. Calculations in your mind, intuitive judgements based on sound engineering principles.
Teamwork is essential
During a search and rescue event, Joshua and other engineers are part of a broader team of professionals which include technicians, team leaders, medical staff. All the different teams need to come together quickly and collaborate and communicate effectively. This is why Joshua thinks that no matter which branch of engineering you are in, teamwork and being collaborative is very important skill:
Engineering, as a profession is made up of a spectrum of people, so you have those who are outgoing naturally extroverted team players and you have those who prefer to work on their own in isolation […] I had to learn the team player aspect of it […] for an engineer to be effective they end up leaning towards teamwork and working closely with others because a) it makes a better outcome and b) its enjoyable and it’s how you learn and it’s how you make friends and it’s how you get the most out of the profession, which is already very rewarding…
Sian Cleaver
Case Study: Sian Cleaver
“Going back [to the Moon] is going to be inspiring for a whole new cohort of people. A large proportion of the world will being seeing this for the first time and I hope that will inspire young people and do wonders for the world of engineering.”
An astronaut in the making
Sian grew up fascinated with the vastness of space: she even remembers a book about astronauts that was at her nursery! When she was five years old she had an opportunity to visit the Kennedy Space Centre with her family, and from that day onwards her mind was set on becoming an astronaut. She joined an astronomy club in school, built and launched rockets in the local park: all of her education journey was shaped around her ambition of one day becoming an astronaut.
“Because I always wanted to be an astronaut and was interested in space, that end goal shaped my career. I did certain GCSEs and A-Levels (physics, maths), I chose certain hobbies.”
Sian hasn’t achieved her dream job yet, but for her it’s all about the journey:
“Whether I achieve that or not [being an astronaut] it allowed me to carve a really, really interesting career and I feel really lucky that I’m doing the thing that I am doing purely because of a decision that I made when I was 5 years old.”
Orion Programme
Sian is a spacecraft engineer at Airbus working on the Orion Programme: part of a series of missions which will return humans to the moon.
She is currently working on the support module, which is the bit of the spacecraft just behind the capsule where the astronauts live and work. The support module is a critical part of the vessel, as it provides water, oxygen and power… and propels the spacecraft to the moon. It is powered by four solar panels.
Sian has to be organised and logical at work because part of her job is to manage a list with every single step that is required to put the module together. It’s a bit like the instruction booklet that comes with a Lego set, but Sian’s list tracks 20,000 pieces and 12 kilometres of different-colour wires that needs to be put together in a very specific order, all inside a compact cylinder.
“I think it’s beautiful! It takes my breath away how complex it is, but how beautiful it is at the same time!”
Sian is also responsible for ensuring all the equipment going inside the module arrives on site at the right time so that her team can build it in the correct order. If there is something wrong with an individual part it needs get resolved so it doesn’t compromise the rest of the assembly.
Beyond the Moon… Mars!
Going back to the Moon is a stepping stone to the next stage of space exploration: Mars. The Orion Programme plan is to build a space station around the Moon. Once infrastructure is up and running – perhaps even using resources from the Moon – then future Orion missions could go from the Moon onwards to Mars. That’s something Sian hopes to see in her lifetime.
“There is a generation of people who weren’t alive at the time of the Moon landings. Going back is going to be inspiring for a whole new cohort of people. A large proportion of the world will be seeing this for the first time, and I hope that will inspire young people and do wonders for the world of engineering.”
That said, Sian also believes that the time has come for a more diverse group of people to have the chance to experience the Moon and contribute towards the development of space technology:
“Now is the time for women to go to the Moon. It’s time for Europeans to go to the Moon. It’s time for a whole diverse crowd of people to start accessing the Moon and opening up to the whole world!”
The power of languages
Sian learned Russian at secondary school. She thought the language was super cool and linked well with her love of space.
“When I was younger, I was very dismissive of languages. I wanted to be a scientist, I wanted to do physics and really didn’t think I needed languages. But now, I’m like: of course you need languages! The more languages you know in Europe the more opportunities it opens up for your career!”
Working in the space industry often requires a global collaboration between many countries such as Europe, Russia, USA, UAE – all sharing knowledge, working together for a common goal. Sian really enjoys this side of her job, as it makes her open-minded to others from different backgrounds.
“You learn about food, culture and jokes in other languages, it’s really fun. It adds a whole new dimension to the office having people from different nationalities and cultures.”
Outside of work
When she’s not building her way to space, Sian enjoys gliding and scuba diving. She says Scuba diving transports you to another world, and is the closest experience on Earth to being in space!
Position
Aerospace engineer
Key Attributes
logical, open-minded, organised
Qualifications
A-Levels, Degree, Physics
Employer
Ruth Amos
Case Study: Ruth Amos
“There are so many young people out there who think they are not clever enough to be an engineer, that they don’t come from the right places, that engineers don’t look like them … and they are wrong! … Engineering has a place for everyone! ”
Nearly missed opportunities
Ruth grew up in Derbyshire and she loved making and designing things when she was a child. However she never thought she could become an engineer as she didn’t know of many women in engineering. Through secondary school (she attended a technology college) she thought she was going to be a lawyer and she was going to university. She nearly missed the opportunity to explore a career in engineering until one of her teachers set her a problem of designing a mobility product that helps people to be able to walk up and down their stairs. She won an engineering award for her invention when she was only 15!
“It was only when I won the engineering award that started to meet all of these incredible female engineers and I was like oh, maybe I want to be an engineer … maybe I could be an engineer”
Looking back she thinks she would a bored lawyer as she loves being an engineer and inventing things.
A Zimmer frame for stairs
Ruth’s imagination and resilience helped her to invent StairSteady, a mobility device to make it easier for people with mobility issues to climb stairs. She says the idea is very simple:
“I always think about it as a walker or a Zimmer frame for the stairs …”
StairSteady is like a bar perpendicular to a handrail. People can hold to the bar and pull themselves up or down the stairs safely. This is a mechanical device with no electronics components. It uses friction (a force created between two surfaces that are trying to slide) and it locks itself on the rail. Have a look below in how it works.
Ruth also had to learn a lot about setting up her own business as her role didn’t stop with the invention of StairSteady. To bring a product to the market you have to prototype it, work with manufacturers, patent it and then market it.
Kids Invent Stuff
Ruth and her work colleague Shawn founded and present a youtube channel for children named kids Invent Stuff where they are committed to get children inventions come to life. Children aged 4 to 11 send them their ideas to Ruth and Shawn and they pick one to make: from firing water shooting piano to a jellycoper (yes an helicopter that shoots jelly)!
Ruth says that they feel the pressure to make the inventions justice and that they start every project from scratch. Most times they don’t have all the answers and there is lot of problem solving, being creative with solutions and this is a massive part of engineering!
Every single project they pick some fails and they try to show that was well as we learn a lot when something fails.
“I thought it was only special people that design and invented things and here was something that I had designed being made and that was such a pivotal moment on my journey into engineering so that is something that Shaun and I want to get the next generation and show them, no you can really shape the future!”
During lockdown she made an amazing pair of giant retractable wings made of red feathers for social distancing, which you can see in the image on top of this page.
Stereotypes and reclaiming inventing
Ruth loves to talk to young people about engineering, especially girls and tell them about the role they can have in engineering:
“I love problem solving and when we talk to people about engineering, we to talk about how creative it is, we have to talk about how we are solving problems because I think sometimes that gets missed out when young people are learning about engineering, and they don’t realise how exciting it is …”
There are still too many stereotypes associated with engineering and engineers and this is why Ruth and Shawn like to talk about being inventive rather than doing engineering as you need similar skills for both! Ruth firmly believes that:
“We need to reclaim inventing back!”
Sophie Robinson
Case Study: Sophie Robinson
“One of the good things about engineering is that there are a lot of opportunities where you can use your skillset to make a difference, and make a difference in lots of different fields as well!”
Inevitable engineering
Sophie grew up in a working class family from a mining village in the North of England. As a child, she remembers wanted to be an astronaut and being fascinated with Lego (she claims to have had the equivalent of her body weight in Lego!) and Meccano. Her parents encouraged her to go to university: they saw it as a good route to a professional job. Sophie recalls:
“When I was young I was always really into maths and science. I would have done a pure maths degree but there was something always nagging in the back of my mind […] I always wanted something more practical.”
With this combination of academic interests and practicality, she thinks engineering became an “inevitable” career path.
After she finished a PhD in flight mechanics from the University of Liverpool, Sophie got involved in many projects as an aerospace engineer. It’s a job she describes as being involved in the whole lifecycle of anything that flies: design, certification, operation, maintenance and safe disposal (decommissioning).
EVT0L aircraft
Sophie’s currently a senior flight dynamics engineer at Vertical Aerospace, a company working on creating the world’s first commercial eVTOL aircraft – electric vertical take-off and landing. It’s planned as an air taxi, to transport people and goods on short journeys.
Vertical’s aircraft will be 100% electric, affordable, and could help ease road traffic in densely populated areas.
“All of the technologies to make this kind vehicle happen exist, we are not conjuring things out of thin air that don’t exist at the moment. It’s all about bringing those technologies together into a package to make it happen.”
A lifetime achievement
In her current role Sophie is responsible for the simulator that will train pilots to fly the aircraft: she needs to be creative and logical. She also studies the performance of the air taxi, in particular how manipulating the controls translates into aircraft motion. The air taxi will be a once-in-a-lifetime achievement for Sophie and her colleagues, so she tells us that hard work is essential.
“Why did I become an engineer in first place? Because I wanted to be involved in projects like this, it’s completely innovative! That is human nature, we always want to find the next step, the next new thing. How can we put together the different technologies we’ve developed?”
Nothing great is easy
Outside of work. Sophie enjoys travel and particularly swimming. In 2012 she swam the English Channel, inspired by the first person to do so, Captain Webb, who said, “Nothing great is easy”. She has his quote as a tattoo.
“I am a mermaid when I’m not an engineer!”
She often colours her hair a different colour as this makes people notice and remember her. She says it‘s a good conversation starter!
Rory Harris
Case Study: Rory Harris
Rory is a Science Communication placement student with UKRI Science and Technology Facilities Council (STFC)
Placement year
Rory studies Physics at the University of Manchester. As part of his degree, he has taken a one year placement with STFC as a science communicator. He loves science and after finishing his GCSE’s he chose to study Maths, Further Maths and Physics at college.
Communicating science with the public
Rory collaborates with scientists to tell the public about the work they are doing. He has great communication skills and can explain why science is important and what it all means in an easy way.
“My job is to tell everyone all about the great work being done by particle physicists!”
Science communication is very important, a scientist’s work is a lot more useful if everyone knows about it and can understand it too! As part of his job, Rory is also hard-working as he ensures he meets deadlines for news articles and social media updates during his placement.
Volunteering
Whilst studying at university, Rory volunteered at the Science and Industry Museum in Manchester, giving public tours and answering questions about exhibits.
He really enjoyed doing this and found it was great helping engage people with science. Now, on his placement Rory has helped to create some exhibits for their visitor centre as well!
Shrouk El-Attar
Case Study: Shrouk El-Attar
“That idea of what an engineer looks like is really out of date and it needs to change […] people engineer in their heels, people engineer in their dresses, and for me it’s such a creative field!”
A journey of resilience
Shrouk left her native Egypt at the age of 15, arriving in the UK with her family. She was eventually granted refugee status on the basis of her sexuality, but her mother, sister and brother were deported. Showing remarkable resilience, she enrolled to study electrical engineering at Cardiff University, but could only start to study once her asylum case was complete – which took several years. She believes that more needs to be done to enable asylum seekers to access higher education, and to help people considering engineering as a career:
“We need to produce more than 186,000 engineers every single year, just to meet our engineering shortfall by 2024, and the same time we prevent people from accessing engineering”
Improving the quality of life of others
Since graduating from university, Shrouk has collaborated with others in a variety of projects. She’s designed robots that can measure tiny things just a few nanometers across, and built a machine that can detect cancer cells based on how electrons wobble in the presence of magnetic fields.
Currently, she gets to release her creativity designing and testing products which help improve the quality of life of many women and others across the world. She find engineering to be a very collaborative field:
“You work with other engineers, scientists, data scientists and artists to make your product look nice …”
Changing perceptions of engineering
Shrouk is a passionate advocate for changing perceptions of engineering, as there is still a long way to go in terms of attracting creative people into the sector. She also works towards valuing non-univeristy routes into engineering:
“We need to change our language. We need to make it more accessible, we also need to change the default routes into engineering. Why is just the university route considered? Why can’t we take on more apprentices?”
A passionate advocate
In her free time Shrouk is a belly dancer, and she fundraises to help the LGBTQ community in countries such as Egypt. In 2018 she was awarded Young Woman of the Year in the Women on the Move Awards, from Migrants Organise and the UNHCR (the UN Refugee Agency).
Inventive podcast
Shrouk is featured in an episode of the Inventive Podcast:
Emmanuel Olaiya
Case Study: Emmanuel Olaiya
Emmanuel is a particle physicist working at the Particle Physics Department with STFC.
A passion for physics and travelling
Emmanuel studied maths, physics and chemistry for his A-levels. However it was his passion for physics which push him into university and beyond.
“Physics was always my favourite subject and for further education I wanted to do something that I enjoyed so I studied physics at university and then completed a particle physics PhD”
After finishing his degree at university, Emmanuel continued to study towards a PhD in particle physics. This opportunity allowed him to travel the world. He lived in Geneva in Switzerland for a year to do his PhD. Then after that he moved to California, USA to work on a particle detector for 4 years.
“Another one of the great things about my job is it has enabled me to live in other parts of the world.“
He lived in Geneva, Switzerland, for a year to do his PhD. Then after that he moved to California, USA to work on a particle detector for 4 years.
Being a particle physicist
According to Emmanuel the job of a particle physicist can be described as follows:
“I investigate the smallest particles and the forces they interact with. To do this I work with physicists around the world on experiments that detect what happens when you collide particles together at very high energies.”
Emmanuel is logical as he programs hundreds of computers to help him identify particles that are produced in accelerator collisions. He needs to be self- motivated because these experiments create so much data which needs looking through carefully. Emmanuel looks through the data creatively hoping to find missing particles that can explain how massive the Universe is.
“My main ambition is to detect particles that could explain Dark Matter which we believe form the majority of particles out there in space.”
Always learning new things
Emmanuel is always learning physics through his job. He also gets to teach physics and write research papers which he enjoys a lot. Other tasks involve spending time computer programming and working on detector development which he finds very interesting.
“I really love how varied and stimulating my job is.”
Adventuring Outdoors
In his spare time, Emmanuel loves to explore his beautiful surroundings by hiking or cycling. He also loves to go skiing, something that he found he really enjoyed whilst working in Geneva.
