In partnership with the Massachusetts Institute of Technology

  "Making the Impossible Measurable"

  OFFICIAL COMMUNICATION

  Classification Level: RESTRICTED

  Document ID: MIT-DAAS-2025-0317

  April 12, 2025

  Jordan Westwood

  4817 Longshore Avenue

  Philadelphia, PA 19135

  Dear Jordan Westwood,

  On behalf of the Department of Applied Anomalous Sciences (DAAS) and the Massachusetts Institute of Technology (MIT), we are pleased to formally accept you into our Joint Anomalous Sciences Research Program for the 2025-2026 academic year. Your application demonstrated exceptional promise, and your unique space-manipulation abilities represent precisely the type of specialized talent our program seeks to develop.

  The MIT-DAAS Joint Research Program is an academic-year internship integrated with your coursework at MIT. Unlike traditional internships, this position is considered part of your academic curriculum and carries course credit through MIT's Advanced Anomalous Physics track (Course 8.927 and 8.928). You will split your time between MIT's campus facilities and our research campus in Baltimore, with transportation provided via DAAS secure shuttle service.

  Duration: September 5, 2025 - May 15, 2026

  Status: Research Intern (Specialized Spatial Dynamics Division)

  Academic Credits: 12 credits per semester (6 credits per course)

  Stipend: $1,750 monthly research allowance

  Housing: Single occupancy accommodation in MIT graduate housing

  Classification: AMBER clearance (Subject to security protocol induction)

  Based on your documented abilities in spatial compression and expansion, you have been assigned to the Non-Euclidean Geometry Research Unit under Dr. Eleanor Chen. Your primary research focus will involve:

  

  
1. Controlled laboratory documentation of your space-warping capabilities


  
2. Collaboration with baseline scientists to develop measurement protocols


  
3. Material stress testing under spatial compression conditions


  
4. Development of potential applications for targeted spatial manipulation


  
5. Participation in cross-disciplinary projects with other specialized metahumans


  

  While at MIT, you will be enrolled in:

  

  
• Fall Semester: Advanced Anomalous Physics I (8.927)


  
• Spring Semester: Advanced Anomalous Physics II (8.928)


  
• Both Semesters: Applied Mathematics for Spatial Anomalies (18.556)


  

  These courses are specifically designed to help baseline-educated students develop the theoretical frameworks necessary to understand and contextualize their innate abilities within established scientific paradigms.

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  As a participant in this program, you agree to the following terms:

  

  
1. All research conducted during your internship remains classified at AMBER level


  
2. Any devices, materials, or methodologies developed are jointly owned by MIT and DAAS


  
3. You retain the right to be named as a contributor in any resulting publications


  
4. Publications derived from your work will undergo security review before release


  
5. You may include general descriptions of your research in your academic portfolio, resume, and CV, subject to security clearance


  

  The following accommodations will be provided:

  

  
1. Weekly medical monitoring to assess power usage and physiological impact


  
2. Custom laboratory space designed to safely contain spatial anomalies


  
3. Emergency containment protocols in case of power instability


  
4. Access to specialized nutritional support optimized for metahuman caloric needs


  
5. Bi-weekly sessions with DAAS power integration specialists


  

  Your unique abilities necessitate certain safety measures:

  

  
1. All spatial manipulation experiments must be conducted in designated containment areas


  
2. A baseline scientist must be present during all power demonstrations


  
3. You agree to wear a specialized monitoring device during laboratory sessions


  
4. Power usage is restricted to authorized research purposes while on DAAS/MIT property


  
5. Emergency shutdown procedures must be memorized and practiced monthly


  

  To formally accept this position, please:

  

  
1. Sign and return the enclosed acceptance form by April 30, 2025


  
2. Complete the AMBER clearance background check forms


  
3. Attend the orientation session on August 28-30, 2025, at MIT's main campus


  
4. Submit medical history to our secure portal by May 15, 2025


  
5. Arrange a preliminary power assessment with our Philadelphia field office before July 1, 2025


  

  We are particularly excited about your potential contributions to our understanding of spatial manipulation. Your documented ability to create localized space compression without mass displacement represents a significant anomaly that may help bridge our understanding of quantum field theory and general relativity.

  Should you have any questions, please contact your assigned program liaison, Dr. Marcus Wong, at or through our secure communication portal.

  Welcome to the frontier of impossible science, Jordan. We look forward to helping you understand the extraordinary abilities you possess.

  Sincerely,

  [Signature]

  Dr. Alan Reeve

  Director, Department of Applied Anomalous Sciences

  [Signature]

  Dr. Sophia Martinez

  Chair, Department of Physics

  Massachusetts Institute of Technology

  SECURITY NOTICE: This document contains sensitive information related to anomalous research. Unauthorized disclosure may result in federal penalties under the Superhuman Research Protection Act of 2013.