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Master's Thesis: Design of Low Power Charge Pump for PLL at 4K - Job Opportunity at Fraunhofer Research Institution for Microsystems and Solid State Technologies EMFT

Munich, Germany
Internship
Entry-level
Posted: February 5, 2025
On-site
EUR 25,000-30,000 per year (typical German master's thesis compensation)

Benefits

Research experience in cutting-edge quantum computing applications
Mentorship from leading researchers
Access to advanced laboratory facilities
Professional development opportunities
International research environment
Work with innovative technologies

Key Responsibilities

Literature analysis of transistor behavior at cryogenic temperatures
Design and simulation of low power charge pump circuits
Implementation of Verilog-A behavioral models
Layout design and verification
Documentation and presentation of research findings
Integration support and knowledge transfer

Requirements

Education

Current Master's student in Electrical/Electronics Engineering

Required Skills

Understanding of CMOS devices Analog design expertise Stability analysis Mismatch analysis Current mirrors Amplifier design Cadence Virtuoso Layout design Phase locked loop knowledge Independent working style English and/or German language proficiency
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Industry Trends

Quantum computing hardware development is experiencing rapid growth with increasing focus on cryogenic electronics Low-power design for quantum systems is becoming crucial as quantum computers scale up Integration of classical electronics with quantum systems presents unique engineering challenges Cryogenic electronics design is emerging as a specialized niche with high demand

Role Significance

Likely part of a specialized research group of 5-10 researchers focused on cryogenic electronics
Research-focused role with significant technical depth despite entry-level position

Key Projects

Development of next-generation quantum computing interface electronics Cryogenic circuit design optimization Integration of classical control electronics with quantum systems

Success Factors

Strong theoretical foundation in analog circuit design Ability to work at the intersection of quantum and classical electronics Detail-oriented approach to design and verification Effective documentation and communication skills Independent research capabilities

Market Demand

High demand due to specialized nature of cryogenic electronics and quantum computing applications

Important Skills

Critical Skills

Cryogenic electronics knowledge due to specialized temperature requirements Analog circuit design expertise for precise charge pump implementation Simulation and verification skills for accurate modeling at extreme conditions

Beneficial Skills

Quantum computing fundamentals Scientific writing skills Project management capabilities Research methodology expertise

Unique Aspects

Focus on extreme environment electronics (4K temperature)
Direct contribution to quantum computing advancement
Combination of theoretical research and practical implementation
Access to state-of-the-art facilities and expertise

Career Growth

6-12 months thesis duration with potential for continued research or industry position

Potential Next Roles

PhD in Quantum Engineering Research Engineer in Quantum Computing Cryogenic Electronics Specialist Quantum Hardware Engineer

Company Overview

Fraunhofer Research Institution for Microsystems and Solid State Technologies EMFT

Fraunhofer EMFT is a leading research institution in microsystems and solid-state technologies with strong industry connections

Premier position in applied research with significant influence in European technology development
Major research hub in Munich with additional facilities in Oberpfaffenhofen and Regensburg
Collaborative research environment with focus on practical applications and industry relevance
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