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Phd Neuroscience Jobs (NOW HIRING)

PhD in Neuroscience, Biomedical Engineering, Computer Science, Bioengineering, or related field ... Strong experience writing and/or supporting successful NIH, NSF, DoD, or equivalent federal grant ...

PhD in Neuroscience, Biomedical Engineering, Computer Science, Bioengineering, or related field ... Strong experience writing and/or supporting successful NIH, NSF, DoD, or equivalent federal grant ...

PhD in Neuroscience, Biomedical Engineering, Computer Science, Bioengineering, or related field ... Strong experience writing and/or supporting successful NIH, NSF, DoD, or equivalent federal grant ...

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... PhD neuroscience, enables people to control hardware and software in real-time with their brain via a non-invasive cap. We have enabled users to control remote control cars, computer programs ...

... PhD neuroscience, enables people to control hardware and software in real-time with their brain via a non-invasive cap. We have enabled users to control remote control cars, computer programs ...

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Phd Neuroscience information

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How much do phd neuroscience jobs pay per hour?

As of Jul 7, 2026, the average hourly pay for phd neuroscience in the United States is $29.44, according to ZipRecruiter salary data. Most workers in this role earn between $25.48 and $32.93 per hour, depending on experience, location, and employer.

What is the highest paying job for a neuroscience PhD?

The highest paying jobs for a neuroscience PhD typically include roles such as pharmaceutical executive, biotech director, or senior research scientist, often in the private sector. These positions usually require extensive research experience, leadership skills, and advanced knowledge of neurobiology, with salaries often exceeding $150,000 annually depending on the industry and location.

Is it worth getting a PhD in neuroscience?

A PhD in neuroscience prepares individuals for research, academia, and specialized roles in healthcare and biotech industries. It involves extensive training in laboratory techniques, data analysis, and critical thinking, often requiring several years of study. The degree can lead to higher-level positions but also involves significant time and financial investment.

What are some common collaborative projects or interdisciplinary opportunities available to PhD Neuroscience students during their studies?

PhD Neuroscience students frequently collaborate with researchers from fields like psychology, computer science, engineering, and medicine. These interdisciplinary projects might involve neuroimaging, computational modeling, or working with clinicians on translational research. Such collaborations are not only encouraged but often essential, as they broaden your research perspective and can lead to co-authorship on publications. Regular lab meetings, joint seminars, and cross-departmental grants provide structured opportunities to connect with professionals from diverse backgrounds.

What is a PhD in Neuroscience?

A PhD in Neuroscience is an advanced academic degree focused on the study of the nervous system, including the brain, spinal cord, and neural networks. Students in these programs conduct original research to better understand how the nervous system functions, how it affects behavior and cognition, and what goes wrong in neurological disorders. Graduates typically pursue careers in research, academia, biotechnology, pharmaceuticals, or healthcare. The program usually takes 4-6 years to complete and includes coursework, laboratory rotations, and the completion of a dissertation.

What are the key skills and qualifications needed to thrive as a PhD Neuroscientist, and why are they important?

To thrive as a PhD Neuroscientist, you need advanced knowledge in neuroscience, experimental design, and data analysis, typically supported by a doctoral degree in neuroscience or a related field. Expertise in laboratory techniques, statistical analysis software (e.g., MATLAB, Python, R), and familiarity with imaging systems like MRI or electrophysiology equipment are also important. Strong problem-solving abilities, communication skills, and perseverance help you navigate complex research challenges and collaborate effectively. These skills and qualities are crucial for conducting innovative research, publishing findings, and advancing the understanding of brain function.

How much money can I make with a PhD in neuroscience?

A PhD in neuroscience typically leads to research, academic, or industry roles with salaries ranging from $70,000 to over $120,000 annually, depending on experience, location, and sector. Positions in academia or government may have lower starting salaries, while industry roles in biotech or pharmaceuticals tend to offer higher compensation.

What careers can you have with a PhD in neuroscience?

A PhD in neuroscience prepares individuals for careers in research, academia, healthcare, pharmaceuticals, and biotech industries. Graduates often work as university professors, research scientists, clinical neuropsychologists, or in roles involving data analysis, neuroimaging, and drug development, utilizing skills in experimental design, critical thinking, and advanced laboratory techniques.
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What cities are hiring for Phd Neuroscience jobs? Cities with the most Phd Neuroscience job openings:
What states have the most Phd Neuroscience jobs? States with the most job openings for Phd Neuroscience jobs include:
Infographic showing various Phd Neuroscience job openings in the United States as of July 2026, with employment types broken down into 2% As Needed, 83% Full Time, 14% Part Time, and 1% Contract. Highlights an 90% Physical, 1% Hybrid, and 9% Remote job distribution, with an average salary of $61,245 per year, or $29.4 per hour.
PhD Research Intern - Neuroscience + AI (Fall 2026)

PhD Research Intern - Neuroscience + AI (Fall 2026)

Dolby Laboratories, Inc.

San Francisco, CA โ€ข On-site

Other

Posted 26 days ago


Job description

Join the leader in entertainment innovation and help us design the future. Theย Advanced Technology Groupย (ATG) is the research division of the company. ATG's mission is to look ahead, deliver insights, and innovate technological solutions that will fuel Dolby's continued growth. As a valued member of the Dolby team,ย you'llย see and hear the results of your work everywhere, from movie theaters to smartphones. We continuously push the boundaries ofย audio,ย imaging, andย cloudย technology to create spectacular entertainment experiences.ย ย 

As a diverse and dynamic group, our ATG researchers work on cutting-edge projects related to computer science and electrical engineering for audio, video, and cloud technologies, exploring exciting domains such as AI/ML, algorithms, digital signal processing, audio processing, image processing, computer vision, AR/VR, data science & analytics, distributed systems, cloud, edge & mobile computing, computer networking, and IoT.ย 

Multimodal Experiences Lab - Advanced Technology Groupย 

We are seeking exceptional interns to join ourย cutting-edgeย research at the intersection of physiological measurement, computational neuroscience, and next-generation media experiences. You will have the opportunity to develop novel approaches to measuring user engagement through cardiovascular dynamics, neuralย activity, andย otherย biosignalย analysis to enable personalized, adaptive media content. As an intern, you will work closely with our team ofย researchers and scientists to advance the frontier of engagement-aware media systems thatย leverageย AI and foundation models to adapt in real-time to user state and preferencesย derived from physiological data.ย 

What are we looking for in candidates?ย 

Along with your solid technical skills, candidates shouldย demonstrateย problem-solvingย and analytical abilities,ย goodย communicationย andย collaborationย skills, aย curiosityย for how and why things work as they do, and aย passionย for understanding humanย perceptionย and engagement with media. You have a desire to bring inย new ideasย and are open to learning from others and working in a team environment focused on transforming the future of entertainment experiences through AI-driven physiological understanding.ย 

You may succeed in this role if you are a PhD candidate in neuroscience, biomedical engineering, computer science, or related fields, and you are excited about bridging physiological measurement with AI and media technology to create more engaging and personalized experiences.ย 

Example Responsibilitiesย 

  • Work collaboratively with our team to design and implement experiments measuring cardiovascular dynamics (heart rate variability, PPG) and autonomic physiology (EDA) during media consumption across different content types and viewing contexts.ย 

  • Developย EEG-basedย neural signature models for media componentsย and eventsย combiningย naturalistic media stimuliย withย AI-based content analysis.ย 

  • Createย biosignalย transfer learningย approachesย thatย establishย robust mappingsย between high-fidelity neural signatures and accessible physiological measures from consumer wearable devices.ย 

  • Build foundation models for physiological data representation that can generalize across individuals, devices, and measurement contexts to enable scalable engagement prediction systems.ย 

  • Implement temporal engagement modelsย to predict user state trajectories andย optimizeย content adaptation timing for sustained engagement across diverse media experiences.ย 

  • Develop multimodal AI systems that integrate physiological signals, content features, and contextual information to predict and enhance user engagement in real-time media applications.ย 

  • Leverage large-scale physiological datasets to train foundation models that capture universal patterns in human engagement responses while preserving individual personalization capabilities.ย 

  • Contribute to the development of research papers, patents, and technical presentations advancing the field of AI-drivenย andย engagement-aware media systems.ย 

Requirementsย 

  • Currently pursuing aย PhD degreeย in neuroscience,ย computational neuroscience,ย biomedical engineering, computer science, electrical engineering, cognitive science, or a related field.ย 

  • Strong programming and prototyping skills inย Python,ย Matlab, or similar languages with experience in signal processing, time-seriesย prediction andย analysis, and AI/ML frameworks (PyTorch, TensorFlow).ย 

  • Familiarity withย physiological signal acquisition and analysis, particularly cardiac signals (ECG, PPG, HRV),ย electrodermal activityย (EDA) and EEGย measurements.ย 

  • Experience with machine learning techniques and algorithms, particularly deep learning, transfer learning, and foundation models applicable to physiological data and temporal modeling.ย 

  • Understanding of AI model development including data preprocessing, feature engineering, model training, and evaluation forย biosignalย applications.ย 

  • Understanding of experimental design, hypothesis testing, and collection of perceptual and physiological data in controlled settings.ย 

  • Analytical skills and the ability to manipulate, visualize, and extract meaning from complex physiological and behavioral datasets.ย 

  • Excellent communication and teamwork skills.ย 

  • Ability to work independently and take initiative on complex, interdisciplinary problems involving AI and human physiology.ย 

Highly Desirableย 

  • Experience developing foundation models or large-scale representation learning for physiological or biomedical data.ย 

  • Prior work with transformer architectures,ย state space models,ย self-supervised learning, or contrastive learning methods applied to time-series physiological data.ย 

  • Experience with real-time gaming/simulation engines such as Unity or Unreal for creatingย virtualย experimental environments.ย 

  • Knowledge of multimodal AI systems that combine physiological, behavioral, and content-based signals.ย 

  • Prior work with EEG analysis, event-related potentials, or other neuroimaging techniques combined with AI interpretation methods.ย 

  • Understanding of wearable sensor technologies, their data characteristics, and approaches for handling sensor heterogeneity.ย 

  • Experience with edgeย measurement and MLย deploymentย techniquesย for real-time physiological monitoring and engagement prediction.ย 

  • Background in human-computer interaction, user experience research, or media psychology with AI integration.ย 

Benefitsย 

  • Gain hands-on experience inย cutting-edgeย research combining AI, physiological measurement, and next-generation media technologies.ย 

  • Work alongside experienced engineers, researchers and scientists specializing in AI, neuroscience,ย perceptionย science,ย networkย deliveryย and media systems.ย 

  • Develop skills in experimental design, multimodal data collection, advanced signal processing, and AI/ML applications to human physiology.ย 

  • Contribute to research that will shape the future of AI-powered personalized, adaptive media experiences.ย 

  • Collaborate with teams developingย recomposableย media platforms, content intelligence systems, and AI-driven rendering technologies.ย 

If you are passionate about understanding human engagement through physiological measurement and applying these insights to create more compelling media experiences, we encourage you to apply for this internship. We welcome applicants from diverse backgrounds and are committed to creating an inclusive and supportive work environment where innovationย inย human-centered technology thrives.ย 

We will review applications on a rolling basis. For the best chance to have your resume reviewed and considered, we recommend submittingย your application byย June 26, 2026.ย ย ย 

Eligibilityย 

Working towards a PhD degree in neuroscience, biomedical engineering, computer science, or related field; recent graduates within six months of graduation are also eligible to apply. Must be available to work full-time, Monday to Friday, forย 12 weeks between September - December, 2026.

The start date for this internship is as follows (please note these dates are not flexible):ย 

  • September 21, 2026ย 

The San Francisco/Bay Area base hourly range for this internship position is $62/hrย and can vary if outside of this location. Our hourly ranges are determined by role, level, and location. Within the range, individual pay is determined by work location and additional factors, including job-related skills, experience, and relevant education or training. Your recruiter can share more about the specific hourly range and perks and benefits for your location during the hiring process.

Dolby will consider qualified applicants with criminal histories in a manner consistent with the requirements of San Francisco Police Code, Article 49, and Administrative Code, Article 12

Equal Employment Opportunity:
Dolby is proud to be an equal opportunity employer. Our success depends on the combined skills and talents of all our employees. We are committed to making employment decisions without regard to race, religious creed, color, age, sex, sexual orientation, gender identity, national origin, religion, marital status, family status, medical condition, disability, military service, pregnancy, childbirth and related medical conditions or any other classification protected by federal, state, and local laws and ordinances.