"Uh, yes, Ma'am."
"Good. Now, if you'll look back at the holo," Truman went on, "you'll notice these projections here." The pointer's light beam swept over a series of eight open-mouthed, elongated blisters, just aft of the forward impeller ring and placed so that they aligned with the spaces between the ring's nodes. "These are missile tubes," she told them. "These four" the pointer tapped "are anti-ship launchers, each equipped with a five-round 'revolver' magazine. The Shrike only has twenty shipkillers, but she can launch one from each tube every three seconds." It was Stackowitz's turn to purse her lips silently, and Truman's pointer indicated the other four tubes. "These are for counter-missiles, and the reduction in normal missile armament lets us fit in seventy-two of those. In addition, if you'll notice here" the pointer touched the sleek prow again. "These are point defense laser clusters: six of them, in a ring around the graser emitter."
"Excuse me, Captain. May I ask a question?" It was Takahashi, apparently emboldened by her earlier response to Gearman, and she nodded to him. "Thank you, Ma'am." He paused for a moment, as if searching for exactly the right words, then spoke carefully. "What I'm seeing here seems to be a huge pinnace or assault shuttle, Ma'am, with all its armament fixed forward." She nodded again, and he shrugged. "Isn't it just a little, um... risky for something as small as a LAC to cross it's own 'T' whenever it fires at an enemy starship, Ma'am?"
"I'll let your department officers handle the nuts and bolts, Lieutenant," she said, "but in general terms, the answer is yes and no. As presently envisioned, doctrine calls for the Shrikes to approach regular warships at an oblique angle, denying the enemy anything like a down-the-throat or up-the-kilt shot. One reason they were designed with no broadside armament was to avoid weakening their sidewalls with gunports. In addition, I'm sure you've all noticed the reduced number of drive nodes."
She tapped the forward drive ring with the pointer, and three heads nodded as one.
"These are another innovationfor now we're calling them 'Beta-Squared' nodeswhich are much more powerful than older nodes. In addition, they've been fitted with a new version of our FTL comone with a much higher pulse repetition ratewhich should make the Shrikes very useful as manned long-range scouts. I imagine we'll be seeing something like it in larger ships in the not too distant future. What matters for our present purposes, however, is that the new nodes are very nearly as powerful as old-style alpha nodes, and we've also built much heavier sidewall generators into the Shrike to go with them. The result is a sidewall which is about five times as tough as anything ever previously mounted in a LAC.
"In addition, these ships are fitted with very extensive ECM and a suite of decoys which cost almost as much as the main hull does. All our simulations say that they'll be very difficult missile targets even at relatively short ranges, and particularly if they're supported by additional decoy and jammer missiles. We're currently looking at whether it will be more effective to provide conventional warships to supply those missiles or whether it will make more sense to load them into the LACs' own tubes at the cost of reducing their load-outs on shipkillers.
"And finally, the R&D boffins have come up with something really nice for these ships." Truman smiled at her audience like a shark. "As we all know, it's impossible to close the bow or stern aspect of an impeller wedge with a sidewall, right?" Heads nodded once again. "And why is that, Lieutenant Takahashi?" she asked genially.
The lieutenant looked at her for a moment, with the expression of someone whose Saganami Island days were recent enough in memory to make him wary of leading questions. Unfortunately, she was a senior-grade captain and he was only a junior-grade lieutenant, which meant he had to answer her anyway.
"Because cutting off the stress bands' n-space pocket with a closed wedge prevents you from accelerating, decelerating, or using the wedge to change heading, Ma'am," he replied. "If you want the math?"
"No, that's all right, Lieutenant," she said. "But suppose you don't want to accelerate or decelerate? Couldn't you generate a 'bow' sidewall then?"
"Well, yes, Ma'am, I suppose you could. But if you did you'd be unable to change" Takahashi stopped speaking suddenly, and Lieutenant Commander Stackowitz gave a sharp, abrupt nod.
"Exactly," Truman told them both. "The idea is that LACs will attack single starships in sufficient numbers that it will always be possible for them to close obliquely. The new missile tubes, coupled with the recent improvements in seekers, molycircs that can handle higher-grav vector shifts, and a higher acceptable delay between launch and shipboard fire control's hand-off to the missile's on-board systems, will let them fire effectively at up to a hundred and twenty degrees off bore. That means the Shrikes can engage with missilesand launch counter-missiles against incoming fireeven on an oblique approach. Once they reach energy range, however, they turn directly in towards their targets and bring up their 'bow' sidewall... which has only a single gunport, for the graser, and is twice as powerful as the broadside sidewalls. That makes it as tough as most dreadnought's sidewalls, people, and according to the Advanced Tactical Course's simulators, a target as small as a bow-on LAC should be much harder to hit than a larger warship engaging broadside-to-broadside even under normal circumstances. When you add the sort of electronic warfare capabilities these ships have, they turn into even harder targets, and the presenceand powerof their 'bow' sidewalls should make them harder to kill even if the bad guys do manage to lock them up."
She paused for a moment, then went on in a much more somber voice.
"Nonetheless, a good shot will hit even a difficult target, and if one of these LACs is hit by almost anything, it will be destroyed. So once we commit them to action, we will lose some of them, people. But even if we lose a dozen of them, that's only a hundred and twenty peoplea third of a destroyer's crew and less than six percent of a Reliant class battlecruiser's crew. And between them, those twelve LACs will have twenty-one percent more energy weapon firepower than a Reliant's broadside. Of course, they won't have a fraction of the battlecruiser's missile power, and they have to get to knife range to really hurt the enemy. No one is trying to say they can magically replace capital ships, but all the projections and studies say that they can be a major enhancement to a conventional wall of battle. They should also be able to provide us with a local defense capability that can stand up to raiding Peep squadrons and let us pull our regular capital ships off picket duty, and their range and endurance on station should also make them invaluable for raids behind the enemy's frontier."
Her three newest subordinates gazed at her, clearly still struggling to take in all the information she'd just dropped on them. But there was a glow in their eyes, as well, as they began to envision the possibilities she'd enumerated... and to wonder what else they could figure out to do with the new units.
"Captain?" Stackowitz half-raised a hand, asking permission to speak, and Truman nodded. "I was just wondering, Ma'amhow many LACs will Minotaur carry?"
"Allowing for docking buffers and umbilical service points, the total mass cost per LAC, including its own hull, is about thirty-two thousand tons," Truman said in an almost off-hand tone. "Which means we can only carry about a hundred of them."
"A hun?" Stackowitz cut herself off, and Truman smiled.
"A hundred. The wing will probably be divided into twelve eight-LAC squadrons, and we'll carry the other four as backups," she said. "But I think you can see what kind of force multiplier we're talking about if a single carrier Minotaur's size can put that many of them into space."