To: Musashi Innovations

[Cortana Clark]

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Origin: Proxima Research Laboratory C. Clark
Recipient: Musashi Innovations
Encryption: Civilian Standard
Subject: Inquiry, Jumpdrive Propulsion Research Cooperation

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To the Musashi Innovations team,

My name is Cortana Clark, representing Proxima Research Laboratory, an independent research initiative currently focused on experimental propulsion systems.
Our present work involves the study of compact intersystem jump mechanisms and their associated containment behaviors under sustained resonance.

Given Musashi Innovations’ reputation in Kusari for precision field engineering, we would like to inquire whether your division might be open to a scientific cooperation or limited theoretical exchange regarding these topics.

We are not seeking proprietary data at this stage, merely a discussion to evaluate possible alignment and collaboration potential.

Respectfully,
C. Clark
Proxima Research Laboratory

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[Lythrilux]

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Konnichiwa Miss Cortana Clark

My name is Ryu Nakamura, research assistant to Ms. Ahri Morikawa. If you require assistance with developing experimental propulsion and jump technology, you have come to the right people.

We would be open to the idea of cooperating on such a project. Firstly, however, we would need you to outline the full specifications of the project, the extent of our collaboration and what you require from us, as well as compensation for our involvement.

Ryu Nakamura, Research Assistant
The spearhead of the never-seen-before

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[Cortana Clark]

═══════════ COMMUNICATION LINK ESTABLISHED ═══════════

Origin: Proxima Research Laboratory C. Clark
Recipient: Musashi Innovations
Encryption: Civilian Standard
Subject: Inquiry, Jumpdrive Propulsion Research Cooperation

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Dear Miss Nakamura,

To provide a clearer overview, the VX-3 Veilpiercer Project concerns itself with the development of a miniaturized intersystem jump-drive platform designed for fighter-class vessels.
The central goal is to eliminate the need for external gate infrastructure.

Our research has recently reached a milestone with the successful stabilization of a fractured dark-matter core fragment.
We managed to establish a localized resonance field around the fragment, we were able to counterbalance the gravitational shear typically generated by such energy densities.
This result confirms the theoretical viability of this project.

The next development stage involves translating this equilibrium field into an adaptive drive assembly capable of sustaining coherence through transit.
To that end, we seek collaboration in the following areas:

• Containment material evaluation under cyclical field stress.
  
• Phase modulation array design for resonance stabilization.
  
• Thermal dissipation analysis in confined, high-density cores.
  

If this scope aligns with Musashi Innovations’ fields of expertise, we would welcome the establishment of a nondisclosure framework for secure data exchange and preliminary review.

Regarding compensation, Proxima is a limited operation in scale, not ambition.
We propose a joint development framework:

Musashi Innovations would hold shared authorship and application rights to all validated results, with first-option manufacturing access once prototype validation is achieved.
All experimental data, containment models, and resonance field schematics would be shared in real-time under this partnership.
In return, Proxima seeks your technical consultation and limited infrastructure access to accelerate system validation.

Respectfully,
C. Clark
Proxima Research Laboratory

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