Internship Programme
Our internship positions for 2026 are now closed. We plan to reopen the application process in late 2026 and encourage interested candidates to monitor this page or subscribe to our Linkedin channel. We will not be responding to any speculative applications outside of the application period. Apply via careers page → Follow us on LinkedIn →
Intakes
Spring & Summer
Level
Bachelors / Masters / PhD
Hubs
London / Oxford /Sydney / San Sebastian
Next Cycle
Applications reopen late 2026
About the Programme
Work at the bleeding edge of quantum engineering.
Interns invited onto the programme will work closely with our teams and gain experience in the development of scalable quantum computers based on silicon technology. This is a unique opportunity to work at the bleeding edge of technology development, developing new innovative circuits, devices and theoretical methods to tackle the engineering challenges of implementing a large-scale quantum computer in silicon. Interns will gain research and industrial experience working with some of the brightest quantum engineers, IC engineers and quantum computing theoreticians in a cutting-edge research and development environment. Read our blog post which highlights the measurement work our 2022 summer intern was involved in delivering world-leading results.
Project Areas
Project areas for the internships include
01
The design, validation and operation of quantum devices based on silicon (CMOS) technology
02
The design and test of integrated circuits operating at deep-cryogenic temperatures (4 Kelvin and below)
03
Applications and algorithms
04
Quantum error correction
05
Silicon device modelling
06
Fault-tolerant architectures
When
Spring / Summer intake
We typically run our internship programmes for a Spring / Summer intake. Example deadlines for 2026 were:
Spring Intake
Friday, January 19th 2026
23:59 GMT+0
Summer Intake
Monday, 30 March 2026
23:59 GMT+0
Theory Team
Who is best suited?
For applicants interested in the Theory team, we are looking for applicants who are curious, proactive, adaptable and have a passion for quantum technologies. Interns will be pursuing (or have recently completed) a PhD-level degree that includes research in one of the following target areas: $
Applications and algorithms
$
Quantum error correction
$
Silicon device modelling
$
Fault-tolerant architectures
Projects are expected to deliver novel research, with deliverables including academic papers and new software.
Hardware Team
Who is best suited?
For applicants interested in our Hardware teams, we are looking for applicants who are curious, proactive, adaptable and have a passion for quantum technologies. Interns may be in the course of pursuing a Bachelor’s, Master’s or PhD-level degree in the fields of Physics, Electrical/Electronics Engineering, Computer Science or any relevant subjects. Strong applicants will have hands-on experience, and/or have attended taught courses, in some of the following areas: $
Quantum information
$
Semiconductor devices
$
Analog and Digital Electronics
Experience working in a laboratory environment, programming (Python or Matlab), and strong mathematical and data analysis skills are all beneficial.
How do I apply?
Short interview process
Please submit a CV, alongside details of 2 referees. Provide a cover letter to detail why you want to work with Quantum Motion as well as describing your research interests and how they align with the Quantum Theory team.
Step 01
Introductory call with our hiring team
30 minutes, online
Step 02
Technical interview with the relevant team
30 minutes, online or in-person if close to a host hub
QuantumEngineer
We are delighted to launch our Quantum Engineer rotation programme at Quantum Motion. Our early career programme is a unique opportunity to kickstart your profession in industrial quantum engineering. This is an entry-level role with one-year of training for those who want to become a quantum engineer. Successful candidates will join a fast-paced scale-up, be trained by industry leaders, and build experience tackling hands-on engineering challenges critical to developing large-scale, silicon-based quantum computers. The successful candidate will be expected to work out of our London labs. Apply via Careers Page → Follow us on LinkedIn →
Role Level
Masters Graduates
Duration
One year / 3 rotations
Hubs
London Labs
First Review
Monday, 30 March 2026
Who is best suited?
Recent Masters graduates
We encourage applicants who are interested in beginning a career in quantum engineering and have demonstrated experimental experience and programming knowledge. The position will particularly suit a recent Masters graduate (e.g. MEng, MPhys or MSc) in Physics, Electrical Engineering, or a related discipline, who would like to start a career in developing quantum computing hardware.
What can I expect?
Three rotations across our core teams.
You will work closely with and rotate between teams such as Quantum Hardware, IC Validation, and Intelligent Automation. For each rotation, you will be designated a Technical Supervisor. You will also have a dedicated Programme Supervisor throughout the year for mentorship and coaching. During the three rotations, you will contribute to innovative research by working on lab-based projects, such as:
01
The design, validation, and measurement of quantum devices based on silicon (CMOS) technology.
02
The design and test of integrated circuits operating at deep-cryogenic temperatures (4 Kelvin and below).
03
The characterisation of superconducting support electronics.
04
The experimental test and development of software for efficient data acquisition and analysis, including software that interfaces with test hardware.
What are we looking for?
Essentials
Must haves
$
Top tier education, minimum 2.1 UK degree classification or 3.7 US GPA (or equivalent) Master’s degree in the fields of Physics, Electrical Engineering or closely related discipline, ideally having attended courses in some of the following areas
Analog / Digital IC Design, including RF System Validation, Digital Design Verification, Digital Circuits, ASIC Physical DesignQuantum informationSemiconductor devices
- Analog / Digital IC Design, including RF System Validation, Digital Design Verification, Digital Circuits, ASIC Physical Design
- Quantum information
- Semiconductor devices
$
Demonstrated ability to perform experiments, data analysis and preparation of technical reports and presentations
$
Knowledge of scripted data acquisition software, such as Python or Matlab
$
Ability to work in a team
$
Excellent verbal and written communication skills
$
Curious, proactive and adaptable
Desirable
Nice to haves
$
Experience in circuit design and validation
$
Experience with electrical testing equipment (Voltage sources, current meters, oscilloscopes, lock-in amplifiers, VNAs)
$
Experience with the use of cryogenic measurement systems
How do I apply?
Apply via our careers page
Careers Page → To apply, complete our application form and upload a copy of your CV, with a short cover letter, and the contact details of two referees. Please highlight any lab experience and your reasons for working with Quantum Motion in your application. Applications will be first reviewed on Monday 30th of March 2026, and monthly thereafter. You will receive feedback from the team regardless of the outcome of your application. Please do not contact the team during this period and ensure you check your inbox, including spam or promotions folders, for emails from our recruiting system (sent via the @personio.de mail alias).
Apprenticeship Programme
Applications for the 2025/2026 cohort are currently closed. Please keep an eye on our Careers Page for future intake announcements and updated application deadlines. We are delighted to celebrate the continued success of our Apprenticeship Programme at Quantum Motion. Developed in a close-knit partnership with London South Bank University (LSBU), this programme is a cornerstone of our commitment to developing the next generation of engineering talent. After reviewing hundreds of applications through a selective process, we have successfully welcomed three cohorts of apprentices as of 2026. This unique pathway allows you to join a fast-paced quantum scale-up while working toward a BEng (Hons) Electrical and Electronic Engineering degree.
Degree
BEng (Hons) Electrical and Electronic Engineering degree.
Partner
London South Bank University
Duration
60 months / 3 phases
Cohorts to date
3 cohorts / 4 current apprentices
Who is best suited?
Earn while you learn
We are looking for driven individuals eager to bridge the gap between academic theory and industrial practice. This position is ideal for those who want to earn while they learn, gaining a full degree alongside hands-on industrial training at the forefront of the quantum computing revolution.
What can I expect?
Three phases over 60 months
Your journey is structured into three distinct phases over a 60-month duration, combining academic study with practical workplace competence:
Phase 01
Knowledge & Foundations
(Months 1-18) Focus on academic learning through LSBU, covering theoretical industry principles via lectures and workshops.
Phase 02
Competence & Portfolio
(Months 18-21) Apply your knowledge in the workplace, gathering detailed evidence of your skills and professional behaviours.
Phase 03
Gateway & End-Point Assessment
(Months 22-24+) The final assessment phase conducted by an independent assessor to achieve your qualification.
20%
As part of the 20% Off-The-Job (OTJ) training requirement, you will spend dedicated time on teaching theory, practical training, and assignment writing - all during paid working hours.
Teams you will work with
You will be embedded within our world-class engineering teams, contributing to the development of large-scale, manufacturable quantum processors
01
Cryogenic Engineering
Supporting and developing the state-of-the-art lab equipment essential for our research.
02
Quantum Hardware (QHW)
Designing and operating quantum processors based on silicon industrial technology.
03
Quantum Integration and Validation (QIV)
Focusing on measurement and system hardware integration at deep-cryogenic temperatures.
Support Network
Every apprentice is supported by a robust network
01
Line Manager
Oversees your day-to-day work and career development.
02
LSBU Skills Coach
Provides dedicated guidance to ensure you meet all academic requirements.
03
QM Support
A dedicated internal contact to offer advice and act as a sounding board.
04
Apprentice Alumni Network
Connect with our 4 current apprentices across different year groups to learn from their experiences.
How do I apply?
Via our careers page, when open
When applications open, you will be required to submit your CV and a cover letter through our careers page. Monitor careers page → Follow us on LinkedIn →