Lincolnton, NC

Integrity Autosports Vice President and driver Brian Weber announced today that he has secured an agreement with Crypto Black Gold and BlackGoldEcoverse.com to serve as primary sponsors for his upcoming NASCAR Mexico Series debut. Weber will drive the No. 6 Ford Fusion for Alpha Racing at the Super-fast Aguascalientes Mexico 7/8-mile oval.

Weber will join Alpha Racing teammates Eloy Sebastian and Regina Sirvent for the highly anticipated event.

“This is a project I’ve wanted to bring to life for several years,” said Weber. “With much of my race car driving career is behind me, the opportunity to compete internationally is truly a blessing. David Tame and I have discussed this for quite some time, and I’m grateful to see it finally come together.”

“We are very excited to have Brian as part of the team, he has been racing for quite some time and his knowledge will surely be an asset for our team, we look to have a great weekend along with Regina, “Said Eloy Sebastian.

“After a solid 11th place run at Rockingham, I’m energized and ready to make the most of this opportunity,” Offered Weber.

“As Crypto Black Gold Token (CBG) continues to position itself as one of the fastest-growing digital currencies and I am thrilled to help them not just in the USA but with race fans from around the world”. Said Brian , “The Blackgoldecoverse.com site along with IndoEx platform gives Investors everything they need to expand their portfolios”. Added Weber.

Alpha Racing team principal David Tame emphasized preparation as a key factor heading into the event. “Our plan is to get Brian comfortable in the car through testing ahead of the race at one of Mexico’s fastest oval tracks. We’re confident in his ability to adapt quickly and perform at a high level.”

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Media contact:

Brian Weber

[email protected]

www.Integrityautosports.com

www.Alpharacing.mx

New York, NY

Governments do not advertise what they are building in the stratosphere. They do not need to. The procurement documents, the defence contractor announcements, the research institute publications: the picture assembles itself clearly enough. Every serious military power is pursuing the same capability, platforms that fly high, stay up for extended periods, and operate without pilots. The strategic value is obvious. Persistent surveillance without crew risk. Strike capability without political exposure. Presence without permission.

The technology to do this is no longer theoretical. The materials exist. The flight physics are understood. What remains is the engineering execution, and multiple governments are funding that execution aggressively.

Into this moment, one team introduced a platform with comparable stratospheric endurance ambition, autonomous capability, high-altitude operating logic, and a different answer to the question of what such a system should be used for.

Not a Drone

Before anything else: Neutrino® Energy Group’s Pi Fly is not a drone. This is not semantic precision for its own sake. The drone category carries specific connotations, military heritage, limited endurance, battery dependency, surveillance or strike orientation, that misrepresent what this platform is designed to become. The more accurate description is persistent autonomous atmospheric platform. A category that, until recently, did not exist.

Its operating logic is built across three distinct phases, and each one matters to understanding why it behaves the way it does.

How It Actually Flies

Phase one: vertical takeoff. Electric lift rotors raise the platform clear of the ground. Battery buffers handle the peak energy demand. This is standard electric aviation, engineered for reliability rather than novelty. The significant feature here is not the technology. It is what the VTOL capability enables: deployment from any reasonably flat surface, a field, a ship deck, a disaster site, a mountain clearing. No runway. No airport. No extensive ground infrastructure.

Phase two: transition and climb. As forward airspeed builds, the platform’s large high-aspect-ratio wings generate increasing lift. The lift rotors progressively unload, then stop. From this point, Pi Fly climbs and cruises as a fixed-wing aircraft, not a multicopter. The distinction is fundamental: cruise mode is a sailplane with active energy systems, not a scaled-up quadcopter.

Phase three is where the platform’s character becomes singular.

At 18 to 25 kilometres, the stratosphere is a different physical world. Air density is roughly 7 percent of sea-level values. Aerodynamic drag collapses accordingly. Weather systems, turbulence, the convective violence of the troposphere: all of it is below. What remains is an ultra-stable, ultra-low-drag operating environment requiring minimal continuous energy input to maintain position.

The airframe at this altitude is not just structure. Every panel, every wing surface, every square metre of fuselage is simultaneously a load-bearing component and an active energy-coupling surface. Graphene-silicon heterostructures integrated throughout the airframe are designed to convert persistent ambient excitations into electrical output: thermal gradients between sun-exposed and shaded surfaces, electromagnetic background fields, cosmic particle flux that intensifies at altitude as atmospheric shielding decreases, and mechanical microvibrations from airflow interaction. Multiple input channels, all continuous, all contributing simultaneously under the system’s modeled operating assumptions.

At approximately 1 watt per 8 grams of active structural mass, the projected architecture of 200 to 300 kilograms of integrated material is being engineered toward a continuous output range of 25 to 37.5 kilowatts under modeled operating conditions. That target architecture is intended to support cruise propulsion, avionics, AI navigation, sensor arrays, communications systems, and the ongoing recharge of the battery buffer that handles the VTOL phase.

The altitude conditions that constrain conventional aircraft become operational advantages. More cosmic flux. Better thermal gradient profiles. Lower electronic noise in the cold. Larger airframe means more coupled surface area, which means more distributed energy interaction. The scaling logic inverts: bigger is not merely heavier, it can also become energetically more productive when the structure itself participates in conversion.

Conventional aircraft carry energy. Pi Fly is designed to continuously interact with its energetic environment.

Weeks to months of stratospheric endurance without landing emerge as modeled endurance potential under the projected architecture and stated operating assumptions. Not as a finished commercial guarantee, but as the engineering direction implied by the platform’s energy logic.

Built to Refuse

The platform could be weaponised in principle. That possibility exists for any persistent autonomous high-altitude system with payload capacity, and anyone reading defence procurement literature knows the appetite for exactly this class of capability is substantial.

The decision not to follow that path is not merely a policy position. It is an engineering doctrine.

Pi Fly is not only politically restricted from military use. It was engineered specifically to resist militarisation through layered architectural safeguards.

Geoblocking, conflict-zone exclusion protocols, dynamic no-operation zones, AI-assisted mission authorisation, remote deactivation, and operational permission layers are not afterthoughts. They are structural elements of the system architecture, developed with the same seriousness as the aerodynamics and energy systems. The platform’s resistance to militarisation is therefore not dependent on a single rule, a single operator, or a single software switch. It is distributed across the architecture.

The true breakthrough is the conscious decision to develop a platform capable of extraordinary performance while deliberately refusing to define that performance through weapon capability.

Three Situations That Change

Somewhere in a mountain range, an earthquake has made roads impassable and severed every communications link. Helicopter fuel is running out. Ground rescue teams are operating blind. Pi Fly is deployed, climbs to operating altitude, and takes position over the affected region. It remains there for an extended mission cycle without requiring conventional refuelling. Rescue teams below receive continuous communications relay. Thermal sensors locate survivors in collapsed structures. AI analysis identifies supply-drop coordinates in terrain no vehicle can access. The platform does not need to leave simply because a battery has reached the end of a short flight window.

Elsewhere, across territories where building terrestrial communications infrastructure was never economically viable, connectivity remains absent for millions of people. A single Pi Fly at stratospheric altitude could cover a ground footprint comparable to a low-orbit satellite. Unlike a satellite, it can reposition within hours, descend for payload exchange, and adapt its coverage dynamically as population needs shift. The economics are potentially achievable at scales where orbital systems are not. It is not a satellite. It is an intelligent atmospheric node that responds to human geography rather than orbital mechanics.

And in the lower stratosphere itself, where climate science needs data that current instruments cannot provide, Pi Fly is designed to hold position for extended measurement periods. Weather balloons give snapshots. Satellites pass over on fixed tracks. Neither provides the continuous, stationary measurement across atmospheric chemistry, ozone concentration, aerosol distribution, and temperature profiles that sustained stratospheric presence could make possible. The scientific questions that require this kind of data have been waiting for a platform capable of approaching them differently.

What the Quiet Means

The design is white and silver, organic in profile, built to suggest a large sailplane rather than a weapons system. There is nothing aggressive in its geometry. The visual language is deliberate.

What military programmes are spending billions to develop, Pi Fly addresses from another direction: persistent high-altitude autonomous endurance with sensor, communications, and environmental payload capability. The engineering distance between such a platform and military application is precisely why the decision to preserve a civil, humanitarian, and scientific operating identity must be built into the architecture rather than left only to public statements.

That decision will not make headlines the way a weapons capability would. It will be visible only in what the platform consistently refuses to become, regardless of who asks, regardless of what they offer, regardless of how the geopolitical context shifts around it.

In a race where many competitors are building toward lethality, restraint may be the harder engineering achievement.

Media Contact

Office of Global Communications

Neutrino® Energy Group

International Media & Strategic Affairs

Attn: Adrian Vale

Email: [email protected]

Website: https://neutrino-energy.com/

Las Vegas, Nevada

LAS VEGAS, NV, June 3, 2026 — Diagnostic Orders Direct, a Las Vegas-based telehealth diagnostic order consultation service, today announced a new partner initiative designed to help independent radiology facilities, physician-owned imaging centers, independent ultrasound centers, mobile ultrasound companies, mobile imaging providers, and preventive imaging businesses convert more patient inquiries into completed diagnostic appointments.

The initiative addresses a common problem in outpatient imaging and diagnostic testing: patients often call or email an imaging center ready to schedule an MRI, CT scan, X-ray, ultrasound, mammogram, DEXA scan, PET scan, whole-body MRI, preventive imaging study, EKG, blood lab, or urine lab test, but they do not have a current licensed medical provider order. Without an order, many facilities must turn the patient away, tell the patient to contact a primary care provider, or delay scheduling until the patient can find a provider appointment.

Diagnostic Orders Direct helps close that gap by offering affordable virtual provider reviews for diagnostic imaging orders, ultrasound orders, EKG orders, and lab orders when medically appropriate. Patients can complete a telehealth visit by phone or video, depending on state rules and clinical appropriateness. If the requested diagnostic study is medically appropriate, a provider order may be issued and faxed or securely emailed to the imaging center, ultrasound provider, mobile imaging company, lab, or diagnostic facility chosen by the patient.

“This initiative is designed to help imaging and diagnostic businesses stop losing ready-to-schedule patients simply because the patient does not have a provider order yet,” said  the representative associated with Diagnostic Orders Direct. “Every caller, email inquiry, website lead, or self-pay patient asking for a scan without an order represents a potential missed appointment. Diagnostic Orders Direct gives those patients a fast, affordable, independent provider-review pathway when medically appropriate.”

For independent imaging providers, the workflow is simple. If a patient contacts the facility without a current order, staff may direct the patient to Diagnostic Orders Direct by phone, text, or website. The patient completes intake forms and a virtual provider review. If an order is clinically appropriate, Diagnostic Orders Direct sends the order to the facility selected by the patient.

There is no cost to the imaging facility, ultrasound business, mobile imaging company, or diagnostic provider. The patient is billed directly by Diagnostic Orders Direct, typically $40 per virtual provider-review visit. The initiative does not require B2B contracts, exclusivity agreements, referral fees, facility expansion, added provider staffing, or new administrative infrastructure.

The model is designed to help diagnostic businesses increase patient conversion by giving callers without orders a practical next step instead of a dead end. For many facilities, the ability to capture every phone call, email inquiry, website form submission, or walk-in question from a patient needing a scan without an order can directly support appointment volume, patient access, and facility revenue. Instead of losing the patient at the order requirement, facilities can offer a clear pathway for the patient to obtain an independent provider review.

The program also supports diagnostic facilities that are investing in marketing, local SEO, paid ads, employer relationships, cash-pay pricing, preventive imaging packages, or mobile service expansion but still lose prospective patients at the scheduling stage because an order is missing. Diagnostic Orders Direct gives those businesses a practical conversion tool that can be used by front desk teams, schedulers, call centers, website contact forms, and patient navigation staff. Instead of ending the conversation with “call your doctor first,” facilities can direct patients to a provider-review pathway that may help them return ready to schedule. This can be especially valuable for smaller facilities competing against hospital systems, national imaging chains, and large radiology groups, because it helps them respond quickly to patient demand without hiring additional providers, building a telehealth department, or taking on order-review responsibilities internally.

Diagnostic Orders Direct may support partner workflows for:

Independent outpatient radiology centers
Physician-owned imaging facilities
Independent ultrasound centers
Mobile ultrasound companies
Mobile imaging companies
Women’s health ultrasound providers
Breast, thyroid, pelvic, abdominal, vascular, and soft tissue ultrasound providers
Cash-pay and self-pay imaging facilities
Preventive imaging and longevity imaging businesses
Full-body MRI and advanced preventive imaging providers
Occupational health and diagnostic service providers
Clinics whose patients need imaging, EKG, or lab order support

The initiative may be especially useful for facilities offering or expanding into preventive health imaging, self-pay imaging, whole-body MRI, coronary artery calcium scoring, CCTA, DEXA scans, vascular screening, thyroid ultrasound, breast ultrasound, pelvic ultrasound, abdominal ultrasound, and other patient-directed diagnostic or preventive imaging services where a provider-reviewed order may be required or preferred.

“For small and independent diagnostic businesses, every lost call matters. If a patient is willing to pay for imaging and wants to use your facility, but the only missing piece is the provider order, Diagnostic Orders Direct can help provide that independent clinical review step. The patient pays for the visit, not the facility, and if an order is appropriate, it can be sent directly to the facility the patient chooses.”

Diagnostic Orders Direct currently provides telehealth diagnostic order consultations in approved service states and jurisdictions, including Alaska, Arizona, Colorado, Connecticut, Delaware, District of Columbia, Florida, Hawaii, Idaho, Iowa, Kansas, Maine, Maryland, Massachusetts, Minnesota, Montana, Nebraska, Nevada, New Hampshire, New Mexico, New York, North Dakota, Oklahoma, Oregon, Rhode Island, South Dakota, Utah, Vermont, Washington, and Wyoming.

California and Texas program availability is planned to launch soon as Diagnostic Orders Direct continues expanding its provider coverage and state availability.

Service availability depends on provider licensure, applicable state telehealth rules, patient location at the time of service, clinical appropriateness, and facility acceptance of any order issued.

Diagnostic Orders Direct emphasizes that orders are not guaranteed. All requests are reviewed by licensed providers and are based on medical appropriateness, patient history, symptoms, requested study type, safety considerations, and provider judgment. Patients remain free to choose the imaging center, lab, mobile imaging company, or diagnostic facility they prefer. Facility acceptance of any order is subject to the facility’s policies.

The company also stresses that it is not an imaging center, laboratory, mobile imaging company, radiology interpretation group, emergency service, or replacement for ongoing primary care. Patients with emergency symptoms should call 911 or seek emergency medical care. 

The partner initiative is intended to create a clean, independent order-review workflow that helps patients move forward more efficiently while helping diagnostic businesses capture more appropriate imaging appointments without added operational cost.

Diagnostic businesses interested in learning more may contact Diagnostic Orders Direct to discuss patient handoff language, preferred order delivery methods, fax or secure email workflows, facility-specific order requirements, result-routing preferences, website link placement, front desk scripts, and practical implementation.

About Diagnostic Orders Direct

Diagnostic Orders Direct is a Las Vegas-based telehealth service that provides virtual diagnostic order consultations with licensed medical providers. Patients may request provider review for diagnostic imaging, EKG, blood lab, and urine lab orders when medically appropriate. Common requests include MRI orders, CT scan orders, X-ray orders, ultrasound orders, mammogram orders, DEXA scan orders, PET scan orders, whole-body MRI orders, preventive imaging orders, EKG orders, blood lab orders, and urine lab orders.

Diagnostic Orders Direct is not an imaging center, laboratory, mobile imaging company, emergency service, radiology interpretation group, or replacement for ongoing primary care. Requested orders are not guaranteed and are issued only when medically appropriate after provider review. Facility acceptance of any order is subject to the policies of the chosen imaging center, lab, mobile imaging company, or diagnostic facility.

Contact

Jordan Dorsey 
Diagnostic Orders Direct
6550 S Pecos Rd STE B#110
Las Vegas, NV 89120
Call/Text: (702) 588-3455
Email: [email protected]
Website: https://diagnosticordersdirect.com